California Exhaust Emission Standards and Test Procedures for 1988-2000 Model Passenger Cars, Light-duty Trucks, and Medium-Duty Vehicles

State of California

AIR RESOURCES BOARD

CALIFORNIA EXHAUST EMISSION STANDARDS AND TEST PROCEDURES

FOR 1988-2000 MODEL PASSENGER CARS, LIGHT-DUTY TRUCKS,

AND MEDIUM-DUTY VEHICLES

Adopted: May 20, 1987

Amended: December 20, 1989

Amended: January 22, 1990

Amended: December 26, 1990

Amended: July 12, 1991

Amended: August 12, 1992

Amended: October 23, 1992

Amended: May 28, 1993

Amended: September 17, 1993

Amended: September 22, 1993

Amended: September 22, 1994

Amended: June 24, 1996

Amended: July 24, 1996

Amended: June 4, 1997

Amended: March 19, 1998

Amended: August 5, 1999

The numbering convention employed in this document, in order of priority, is: 1.a.1.i.A. Any

references within specific sections in the Code of Federal Regulations are denoted in order of

priority as: (a)(1)(i)(A) -- the same numbering system employed in the Code of Federal

Regulations.

As Amended 8/5/99

TABLE OF CONTENTS

Section Page No.

1. Applicability ........................................................ 1-1

2. Definitions ......................................................... 2-1

3. Standards .......................................................... 3-1

4. Initial Requirements .................................................. 4-1

a. Application for Certification ...................................... 4-1

b. Required Data ................................................ 4-3

c. Test Vehicles and Test Engines; Assigned Deterioration Factors (DFs) ...... 4-4

d. Compliance with the Inspection and Maintenance Program ............... 4-6

5. Maintenance Requirements ............................................ 5-1

a. Maintenance .................................................. 5-1

b. Maintenance Instructions ........................................ 5-4

c. Submission of Maintenance Instructions ............................. 5-5

6. Demonstrating Compliance ............................................ 6-1

a. Mileage and Service Accumulation; Emission Measurements ............. 6-1

b. Compliance with Emission Standards ............................... 6-5

c. Prohibition of Defeat Devices ..................................... 6-9

7. Small-Volume Manufacturer's Certification Procedures ....................... 7-1

8. Alternative Procedures for Notification of Additions and Changes ............... 8-1

9. Test Requirements ................................................... 9-1

a. Fuel Specifications ............................................. 9-1

b. Road Load Power Test Weight ................................... 9-11

c. Test Sequence; General Requirements ............................. 9-14

d. Vehicle Preconditioning ........................................ 9-15

e. Regeneration Recording Requirements ............................. 9-16

f. All-Electric Range Test Requirements ............................. 9-16

g. Determination of Battery Specific Energy for ZEVs. ................... 9-17

h. Calculations; exhaust emissions .................................. 9-18

10. Optional 100,000 Mile Certification Procedure ............................. 10-1

a. General Guidelines for Implementation ............................. 10-1

b. Specific Guidelines for Compliance ................................ 10-2

c. Maintenance ................................................. 10-5

As Amended 8/5/99

11. Additional Requirements ............................................. 11-1

a. Alternative Durability Procedures ................................. 11-1

b. High Altitude Requirements ..................................... 11-1

c. Highway Fuel Economy Test .................................... 11-1

d. Labeling Requirements ......................................... 11-2

e. Driveability and Performance Requirements ......................... 11-2

f. Malfunction and Diagnostic System Requirements .................... 11-2

g. Methanol and Formaldehyde Emission Testing ....................... 11-2

h. FFV Emission Testing ......................................... 11-3

i. Scope of Certification .......................................... 11-3

j. Statement on Production Vehicles ................................ 11-3

k. 50EF Emission Test Requirement ................................. 11-3

l. Emission Control System Continuity at Low Temperature .............. 11-5

12. Identification of New Clean Fuels to be Used in Certification Testing ............ 12-1

13. Reactivity Adjustment Factors ......................................... 13-1

14. Cold Temperature Test Procedure ...................................... 14-1

APPENDICES

I List of Adopted Sections of Subparts A, B and C, Part 86, Title 40, Code of Federal

Regulations, Incorporated by Reference

II Exhaust Emission-Data Vehicle Selection Criteria

III Determination of Acceptable Durability Test Schedule

IV Determination of Acceptable Exhaust Regeneration Durability Test Schedule

V Pollutant Mass Emissions Calculation Procedures

VI “Blanket” Approval of Running Changes and Field Fixes of Production Vehicles

VII California Statistical Outlier Identification Procedure

VIII Procedure for Determining Vehicle Emission Control Technology Category/Fuel

Reactivity Adjustment Factors

As Amended 8/5/99

CALIFORNIA EXHAUST EMISSION STANDARDS AND TEST PROCEDURES

FOR 1988-2000 MODEL PASSENGER CARS, LIGHT-DUTY TRUCKS

AND MEDIUM-DUTY VEHICLES

The provisions of Subparts A, B, and C, Part 86, Title 40, Code of Federal Regulations as

set forth in Appendix I, to the extent they pertain to Passenger Cars, Light-Duty Trucks and

Medium-Duty Vehicles, are hereby adopted as the California Exhaust Emission Standards and

Test Procedures for 1988-2000 Model Passenger Cars, Light-Duty Trucks, and Medium-Duty

Vehicles, with the following exceptions and additions.

1. Applicability

a. These test procedures are applicable to 1988-2000 model gasoline, gaseous, diesel,

and, for the 1993-2000 model years, alcohol passenger cars, light-duty trucks, and

medium-duty vehicles. Procedures specific to transitional low-emission, low-emission,

ultra-low-emission, and super-ultra-low-emission vehicles are applicable to 1992-2000

model-year gasoline and diesel, and to 1993-2000 model-year alternate fuel and hybrid

electric passenger cars, light-duty trucks, and medium-duty vehicles. References to

"light-duty trucks" in 40 CFR 86 shall apply both to "light-duty trucks" and "medium-duty

vehicles" in these procedures.

b. Any reference to vehicle sales throughout the United States shall mean vehicle

sales in California.

c. Regulations concerning EPA hearings, EPA inspections, specific language on the

Certificate of Conformity, evaporative emissions, high-altitude vehicles and testing,

particulate and oxides of nitrogen averaging and engine family standards applicable in such

averaging, alternative useful life, selective enforcement audit and heavy-duty engines and

vehicles shall not be applicable to these procedures, except where specifically noted.

d. Any reference to gasoline-powered vehicles shall also apply to vehicles powered

by gaseous fuels.

e. Regulations both herein and in Title 40, CFR Part 86, Subparts A, B, and C,

concerning Otto-cycle and diesel-cycle vehicles shall be applicable to alcohol vehicles,

except where specifically noted otherwise.

f. Regulations concerning alcohol vehicles shall also be applicable to fuel-flexible

vehicles, except where specifically noted otherwise.

g. For engines used in medium-duty vehicles which are not distinctly diesel engines

nor derived from such, the Executive Officer shall determine whether the engines shall be

subject to diesel or Otto-cycle engine regulations, in consideration of the relative similarity

of the engines' torque-speed characteristics and vehicle applications with those of

Otto-cycle and diesel engines.

As Amended 8/5/99

1-1

2. Definitions

"Administrator" means the Executive Officer of the Air Resources Board (ARB).

"Alcohol fuel" means either methanol or ethanol as those terms are defined in these test

procedures.

"All-Electric Range Test" means a test sequence used to determine the range of an

electric vehicle or of a hybrid electric vehicle without the use of its auxiliary power unit.

The All-Electric Range Test cycle consists of the Highway Fuel Economy Schedule and

the Urban Dynamometer Driving Schedule (see 9.f. of these test procedures).

"Battery assisted combustion engine vehicle" means any vehicle which allows power to

be delivered to the driven wheels solely by a combustion engine, but which uses a battery

pack to store energy which may be derived through remote charging, regenerative

braking, and/or a flywheel energy storage system or other means which will be used by an

electric motor to assist in vehicle operation.

"Battery pack" means any electrical energy storage device consisting of any number of

individual battery modules which is used to propel electric or hybrid electric vehicles.

"Certificate of Conformity" means Executive Order certifying vehicles for sale in

California.

"Certification" means certification as defined in Section 39018 of the Health and Safety

Code.

"Certification level" means the official exhaust or evaporative emission result from an

emission-data vehicle which has been adjusted by the applicable mass deterioration factor

and is submitted to the Executive Officer for use in determining compliance with an

emission standard for the purpose of certifying a particular engine family. For those

engine families which are certified using reactivity adjustment factors developed by the

manufacturer pursuant to Appendix VIII of these test procedures, the exhaust NMOG

certification level shall include adjustment by the ozone deterioration factor.

"Continually regenerating trap oxidizer system" means a trap oxidizer system that does

not utilize an automated regeneration mode during normal driving conditions for cleaning

the trap.

"Conventional gasoline" means any certification gasoline which meets the specifications of

40 CFR 86.113-90(a), including the specifications of (a)(1)(i) but excluding the specifications

of (a)(1)(ii) as amended by Section 9.a.1. of these test procedures. For the purpose of

determining the ozone-forming potential of conventional gasoline vehicle exhaust emissions,

gasoline meeting the specifications of Appendix VIII, note (9) of these test procedures shall

be used.

As Amended 8/5/99

2-1

"Dedicated Ethanol Vehicle" means any ethanol-fueled motor vehicle that is engineered and

designed to be operated solely on ethanol.

"Dedicated Methanol Vehicle" means any methanol-fueled motor vehicle that is engineered

and designed to be operated solely on methanol.

"Defeat Device" means an auxiliary emission control device (AECD) that reduces the

effectiveness of the emission control system under conditions which may reasonably be

expected to be encountered in normal vehicle operation and use, unless (1) such conditions

are substantially included in the Federal emission test procedure, (2) the need for the AECD

is justified in terms of protecting the vehicle against damage or accident, or (3) the AECD

does not go beyond the requirements of engine starting.

"Diesel-cycle" means powered by an engine where the primary means of controlling power

output is by limiting of the amount of fuel that is injected into the combustion chambers of

the engine.

"Diesel Engine" means any engine powered with diesel fuel, gaseous fuel, or alcohol fuel for

which diesel engine speed/torque characteristics and vehicle applications are retained.

"Dual-fuel vehicle" means any motor vehicle that is engineered and designed to be capable

of operating on gasoline or diesel and on compressed natural gas or liquefied petroleum gas,

with separate fuel tanks for each fuel on-board the vehicle.

"Electric vehicle" means any vehicle which operates solely by use of a battery or battery

pack. This definition also includes vehicles which are powered mainly through the use of an

electric battery or battery pack, but which use a flywheel that stores energy produced by the

electric motor or through regenerative braking to assist in vehicle operation.

"Element of Design" means any control system (i.e., computer software, electronic control

system, emission control system, computer logic), and/or control system calibrations and/or

the results of systems interaction, and/or hardware items on a motor vehicle or motor vehicle

engine.

"Ethanol" means any fuel for motor vehicles and motor vehicle engines that is composed of

either commercially available or chemically pure ethanol (CH CH OH) and gasoline as

3 2

specified in section 9.a. (Fuel Specifications) of these test procedures. The required fuel

blend is based on the type of ethanol-fueled vehicle being certified and the particular aspect of

the certification procedure being conducted.

"Ethanol vehicle" means any motor vehicle that is engineered and designed to be operated

using ethanol as a fuel.

"Fuel fired heater" means a fuel burning device which creates heat for the purpose of

warming the passenger compartment of a vehicle but does not contribute to the propulsion of

the vehicle.

As Amended 8/5/99

2-2

"Fuel-Flexible Vehicle" or "FFV" means any methanol-fueled or ethanol-fueled motor

vehicle that is engineered and designed to be operated using any gasoline-methanol or

gasoline-ethanol fuel mixture or blend.

"Gaseous fuels" means liquefied petroleum gas, compressed natural gas, or liquefied natural

gas fuels for use in motor vehicles.

"Heavy-duty engine" means an engine which is used to propel a heavy-duty vehicle.

"Heavy-duty vehicle" means any motor vehicle having a manufacturer's gross vehicle weight

rating greater than 6000 pounds, except passenger cars.

"Hybrid electric vehicle" or "HEV" means any vehicle which is included in the definition of

a "series hybrid electric vehicle", a "parallel hybrid electric vehicle", or a "battery assisted

combustion engine vehicle".

"Incomplete vehicle" means any vehicle which does not have the primary load carrying

device or container attached. In situations where individual marketing relationships makes

the status of the vehicle questionable, the Executive Officer shall determine whether a specific

model complies with the definition of incomplete vehicle.

"Intermediate Temperature Cold Testing" means testing done pursuant to the driving

cycle and testing conditions contained in 40 CFR Part 86 Subpart C, at temperatures between

o o o o

25 F (-4 C) and 68 F (20 C).

"Intermediate volume manufacturer" is any vehicle manufacturer with California sales

between 3,001 and 35,000 new light- and medium-duty vehicles per model year based on the

average number of vehicles sold by the manufacturer each year from 1989 to 1993; however,

for manufacturers certifying for the first time in California, model year sales shall be based on

projected California sales.

"Light-duty truck" or "LDT" means any motor vehicle, rated at 6000 pounds gross vehicle

weight or less, which is designed primarily for purposes of transportation of property or is a

derivative of such a vehicle, or is available with special features enabling off-street or

off-highway operation and use.

"Loaded Vehicle Weight" or "LVW" means the vehicle curb weight plus 300 pounds.

"Low-emission vehicle" or "LEV" means any vehicle certified to low-emission standards.

"Medium-duty vehicle" or "MDV" means any pre-1995 model year heavy-duty vehicle

having a manufacturer's gross vehicle weight rating of 8,500 pounds or less, any 1992 and

subsequent model-year heavy-duty low-emission, ultra-low-emission, super-ultra-low-

emission or zero-emission vehicle having a manufacturer's gross vehicle weight rating of

14,000 pounds or less, or any 1995 and subsequent model year heavy duty vehicle having a

manufacturer's gross vehicle weight rating of 14,000 pounds or less.

As Amended 8/5/99

2-3

"Methane Reactivity Adjustment Factor" means a factor applied to the mass of methane

emissions from natural gas fueled vehicles for the purpose of determining the gasoline

equivalent ozone-forming potential of the methane emissions.

"Methanol" means any fuel for motor vehicles and motor vehicle engines that is composed of

either commercially available or chemically pure methanol (CH OH) and gasoline as specified

in section 9.a. (Fuel Specifications) of these procedures. The required fuel blend is based on

the type of methanol-fueled vehicle being certified and the particular aspect of the

certification procedure being conducted.

"Methanol vehicle" means any motor vehicle that is engineered and designed to be operated

using methanol as a fuel.

"Natural gas" means either compressed natural gas or liquefied natural gas.

"Natural gas vehicle" means any motor vehicle that is engineered and designed to be

operated using either compressed natural gas or liquefied natural gas.

"Non-methane organic gas" (or "NMOG") means the sum of non- oxygenated and

oxygenated hydrocarbons contained in a gas sample as measured in accordance with the

"California Non-Methane Organic Gas Test Procedures" as adopted July 12, 1991 and last

amended June 24, 1996.

"Non-regeneration emission test" means a complete emission test which does not include a

regeneration.

"Organic Material Hydrocarbon Equivalent" (or "OMHCE") means the sum of the

carbon mass contributions of non-oxygenated hydrocarbons, methanol, and formaldehyde as

contained in a gas sample, expressed as gasoline-fueled vehicle hydrocarbons. In the case of

exhaust emissions, the hydrogen-to-carbon ratio of the equivalent hydrocarbon is 1.85:1. In

the case of diurnal and hot-soak emissions, the hydrogen-to-carbon ratios of the equivalent

hydrocarbons are 2.33:1 and 2.2:1, respectively.

"Organic material non-methane hydrocarbon equivalent" (or "OMNMHCE") for

methanol-fueled vehicles means the sum of the carbon mass contribution of non-oxygenated

hydrocarbons (excluding methane), methanol, and formaldehyde as contained in a gas sample,

expressed as gasoline-fueled hydrocarbons. For ethanol-fueled vehicles, "organic material

non-methane hydrocarbon equivalent" (or "OMNMHCE") means the sum of carbon mass

contribution of non-oxygenated hydrocarbons (excluding methane), methanol, ethanol,

formaldehyde and acetaldehyde as contained in a gas sample, expressed as gasoline-fueled

hydrocarbons.

"Otto-cycle" means powered by an engine where the primary means of controlling power

output is by limiting the amount of air and fuel which can enter the combustion chambers of

the engine. Gasoline-fueled engines are Otto-cycle engines.

As Amended 8/5/99

2-4

"Ozone deterioration factor" means a factor applied to the mass of NMOG emissions from

TLEVs, LEVs, or ULEVs which accounts for changes in the ozone-forming potential of the

NMOG emissions from a vehicle as it accumulates mileage.

"Parallel hybrid electric vehicle" means any vehicle which allows power to be delivered to

the driven wheels by either a combustion engine and/or by a battery powered electric motor.

"Passenger car" or "PC" means any motor vehicle designed primarily for transportation of

persons and having a design capacity of 12 persons or less.

"Periodically regenerating trap oxidizer system" means a trap oxidizer system that utilizes,

during normal driving conditions for cleaning the trap, an automated regeneration mode

which can be easily detected.

"Reactivity adjustment factor" or "RAF" means a fraction applied to the mass of NMOG

emissions from a vehicle powered by a fuel other than conventional gasoline for the purpose

of determining a gasoline-equivalent NMOG emission value. The reactivity adjustment factor

is defined as the ozone-forming potential of the exhaust from a vehicle powered by a fuel

other than conventional gasoline divided by the ozone-forming potential of conventional

gasoline vehicle exhaust.

"Regeneration" means the process of oxidizing accumulated particulate matter. It may

occur continually or periodically.

"Regeneration emission test" means a complete emission test which includes a regeneration.

"Regeneration interval" means the interval from the start of a regeneration to the start of

the next regeneration.

"Series hybrid electric vehicle" means any vehicle which allows power to be delivered to

the driven wheels solely by a battery powered electric motor, but which also incorporates the

use of a combustion engine to provide power to the battery and/or electric motor.

"Super-Ultra-Low-Emission Vehicle" or "SULEV" means any medium-duty vehicle

certified to super-ultra-low-emission standards.

"Transitional low-emission vehicle" or "TLEV" means any vehicle certified to transitional

low-emission standards.

"Trap oxidizer system" means an emission control system which consists of a trap to collect

particulate matter and a mechanism to oxidize the accumulated particulate.

"Type A hybrid electric vehicle" means a hybrid electric vehicle which achieves a minimum

range of 60 miles in the All-Electric Range Test, while maintaining minimal speed and time

requirements throughout the test and without use of the auxiliary power unit.

As Amended 8/5/99

2-5

"Type B hybrid electric vehicle" means a hybrid electric vehicle which achieves a range of

40 to 59 miles in the All-Electric Range Test, while maintaining minimal speed and time

requirements throughout the test and without use of the auxiliary power unit.

"Type C hybrid electric vehicle" means a hybrid electric vehicle which achieves a range of 0

to 39 miles in the All-Electric Range Test, while maintaining minimal speed and time

requirements throughout the test and without use of the auxiliary power unit, or which has

been designated by the manufacturer as having a range of less than 40 miles without the use

of the auxiliary power unit. This definition shall also apply to any hybrid electric vehicle

which allows the operator to control the time or mode of operation of the auxiliary power

unit either directly or indirectly (with the exception that a mechanism which allows the

operator only to shut off the auxiliary power unit is permissible for Type A and Type B

HEVs), to any hybrid electric vehicle which can be operated solely through the use of the

auxiliary power unit, to any hybrid electric vehicle which utilizes a climate control system that

cannot be operated without using the auxiliary power unit, and all other types of hybrid

electric vehicles, excluding Type A and Type B hybrid electric vehicles.

"Ultra-low-emission vehicle" or "ULEV" means any vehicle certified to ultra-low emission

standards.

"Useful Life" means a period of use denoted by the emission standards to which a given

vehicle is certifying. For those light-duty and medium-duty vehicles certified to optional

100,000 mile standards and those 1993 and subsequent vehicles certified to 100,000 mile

emission standards, and those transitional low-emission, low-emission, ultra-low-emission

and super-ultra-low-emission vehicles, including hybrid electric vehicles, certified to 100,000

mile emission standards, the useful life shall be 10 years or 100,000 miles, whichever first

occurs. For 1995 and subsequent medium-duty vehicles and medium-duty low-emission,

ultra-low emission and super-ultra-low-emission vehicles certified to 120,000 mile emission

standards, the useful life shall be 11 years or 120,000 miles, whichever first occurs. For

light-duty and medium-duty vehicles, certified only to 50,000 miles, the useful life shall be 5

years or 50,000 miles, whichever first occurs.

"Zero-emission vehicle" or "ZEV" means any vehicle certified to zero-emission standards.

As Amended 8/5/99

2-6

3. Standards

The following standards, with the exception of standards in Section 3.m., represent the

maximum projected exhaust emissions for the useful life of the vehicle. The standards in Section

3.m. represent the maximum Supplemental Federal Test Procedure exhaust emissions at 4,000 miles

± 250 miles or at the mileage determined by the manufacturer for emission-data vehicles, according

to 40 CFR 86.090-26 as modified by these test procedures.

a. The exhaust emissions from new 1988 model passenger cars, light-duty trucks, and

medium-duty vehicles shall not exceed:

1988 EXHAUST EMISSIONS STANDARDS

5,6

(grams per mile)

Loaded Durability

Vehicle Vehicle Vehicle Non-Methane Carbon Oxides of

1 2 3

Type Weight (lbs.) Basis (mi) Hydrocarbons Monoxide Nitrogen

PC All 50,000 0.39 (0.41) 7.0 0.4

All 50,000 0.39 (0.41) 7.0 0.7

PC (Option 1) All 100,000 0.39 (0.41) 7.0 1.0

PC (Option 2) All 100,000 0.46 8.3 1.0

LDT,MDV 0-3750 50,000 0.39 (0.41) 9.0 0.4

LDT,MDV

0-3750 50,000 0.39 (0.41) 9.0 1.0

LDT,MDV (Option 1) 0-3750 100,000 0.39 (0.41) 9.0 1.0

LDT,MDV (Option 2) 0-3750 100,000 0.46 10.6 1.0

LDT,MDV 3751-5750 50,000 0.50 (0.50) 9.0 1.0

LDT,MDV (Option 1) 3751-5750 100,000 0.50 (0.50) 9.0 1.5

MDV 5751+ 50,000 0.60 (0.60) 9.0 1.5

MDV (Option 1) 5751+ 100,000 0.60 (0.60) 9.0 2.0

(1) "PC" means passenger cars.

"LDT" means light-duty trucks.

"MDV" means medium-duty vehicles.

(2) Hydrocarbon standards in parentheses apply to total hydrocarbons. In order to demonstrate

compliance with a non-methane hydrocarbon emission standard, hydrocarbon emissions shall be

measured in accordance with the "California Non-Methane Hydrocarbon Test Procedures."

(3) The maximum projected emissions of oxides of nitrogen measured on the federal Highway Fuel

Economy Test (HWFET; 40 CFR Part 600 Subpart B) shall be not greater than 1.33 times the

applicable passenger car standards and 2.00 times the applicable light-duty trucks and medium-duty

vehicle standards shown in the table. Both the projected emissions and the HWFET standard shall be

rounded in accordance with ASTM E29-67 to the nearest 0.1 g/mi before being compared.

As Amended 8/5/99

3-1

(4) This set of standards for 1988 and later model vehicles is optional. A manufacturer may choose to

certify to these optional standards pursuant to the conditions set forth in Section 1960.1.5 of Title 13,

California Code of Regulations.

(5) Diesel passenger cars, light-duty trucks, and medium-duty vehicles, except those fueled with methanol,

are subject to the following particulate exhaust emission standards: 0.2 g/mi for the 1988 model years.

The particulate compliance shall be determined on a 50,000 mile durability vehicle basis.

(6) For gaseous-fueled vehicles the calculation procedures provided in Appendix V shall be used for

determining emissions and fuel economy.

As Amended 8/5/99

3-2

b. The exhaust emissions from (i) new 1989 through 1992 model passenger cars and

light-duty trucks, except those produced by a small volume manufacturer, (ii) new 1991 through

1994 model passenger cars and light-duty trucks produced by a small volume manufacturer, (iii)

new 1989 through 1994 model medium-duty vehicles, except those produced by a small volume

manufacturer, and (iv) new 1991 through 1994 model medium-duty vehicles produced by a small

volume manufacturer, shall not exceed:

1989 THROUGH 1994 MODEL YEAR EXHAUST EMISSIONS STANDARDS

5,6

(grams per mile)

Loaded Durability

Vehicle Vehicle Vehicle Non-Methane Carbon Oxides of

1 2 3,4

Type Weight (lbs.) Basis (mi) Hydrocarbon Monoxide Nitrogen

PC All 50,000 0.39 (0.41) 7.0 0.4

All 50,000 0.39 (0.41) 7.0 0.7

Diesel PC (Option 2) All 100,000

0.46 8.3 1.0

LDT,MDV 0-3750 50,000 0.39 (0.41) 9.0 0.4

LDT,MDV

0-3750 50,000 0.39 (0.41) 9.0 0.7

Diesel LDT, MDV 0-3750 100,000

0.46 10.6 1.0

(Option 2)

LDT,MDV 3751-5750 50,000 0.50 (0.50) 9.0 1.0

LDT,MDV (Option 1) 3751-5750 100,000

0.50 (0.50) 9.0 1.5

MDV 5751+ 50,000 0.60 (0.60) 9.0 1.5

MDV (Option 1) 5751 + 100,000

0.60 (0.60) 9.0 2.0

(1) "PC" means passenger cars.

"LDT" means light-duty trucks.

"MDV" means medium-duty vehicles.

(2) Hydrocarbon standards in parentheses apply to total hydrocarbons. In order to demonstrate

compliance with a non-methane hydrocarbon emission standard, hydrocarbon emissions shall be

measured in accordance with the "California Non-Methane Hydrocarbon Test Procedures." For 1993

through 1994 model methanol-fueled vehicles certifying to these standards, including fuel-flexible

vehicles, "Non-Methane Hydrocarbons" shall mean "Organic Material Hydrocarbon Equivalent" (or

"OMHCE").

(3) The maximum projected emissions of oxides of nitrogen measured on the federal Highway Fuel

Economy Test (HWFET; 40 CFR Part 600 Subpart B) shall be not greater than 1.33 times the

applicable passenger car standards and 2.00 times the applicable light-duty trucks and medium-duty

vehicle standards shown in the table. Both the projected emissions and the HWFET standard shall be

rounded in accordance with ASTM E29-67 to the nearest 0.1 g/mi before being compared.

(4) The standard for in-use compliance for passenger cars, light-duty trucks and medium-duty vehicles

certifying to the 0.4 g/mi NOx standard shall be 0.55 g/mi NOx for 50,000 miles. If the in-use

compliance level is above 0.4 g/mi NOx but does not exceed 0.55 g/mi NOx, and based on a review of

information derived from a statistically valid and representative sample of vehicles, the Executive

Officer determines that a substantial percentage of any class or category of such vehicles exhibits,

As Amended 8/5/99

3-3

prior to 50,000 miles or 5 years, whichever occurs first, an identifiable, systematic defect in a

component listed in Section 1960.1.5(c)(2), Title 13, California Code of Regulations, which causes a

significant increase in emissions above those exhibited by vehicles free of such defects and of the same

class or category and having the same period of use and mileage, then the Executive Officer may

invoke the enforcement authority under Subchapter 2.5, Title 13, California Code of Regulations,

commencing with Section 2111, to require remedial action by the vehicle manufacturer. Such remedial

action shall be limited to owner notification and repair or replacement of the defective component. As

used in this section, the term "defect" shall not include failures which are the result of abuse, neglect,

or improper maintenance. This provision is applicable for the 1989 through 1992 model years only.

For small volume manufacturers, this provision is applicable for the 1991 through 1994 model years

only.

(5) Diesel passenger cars, light-duty trucks, and medium-duty vehicles certifying to these standards are

subject to a particulate exhaust emission standard of 0.08 g/mi for the 1989 and subsequent model

years. The particulate compliance shall be determined on a 50,000 mile durability vehicle basis.

(6) For gaseous-fueled vehicles certifying to these standards, the calculation procedures provided in

Appendix V shall be used for determining emissions and fuel economy.

(7) This set of standards is optional. A manufacturer may choose to certify to these standards pursuant to

the conditions set forth in Section 1960.1.5 of Title 13, California Code of Regulations.

(8) Pursuant to Section 1960.1.5(a)(1)(B), Title 13, California Code of Regulations the optional standard

for 1989 model year light-duty trucks and medium-duty vehicles only is 1.0 g/mi NOx.

(9) The optional 100,000 mile certification standards and provisions are not applicable to alcohol vehicles.

As Amended 8/5/99

3-4

c. The exhaust emissions from new 1993-2000 model dedicated alcohol vehicles and

fuel-flexible vehicles shall meet all the requirements in Sections 3.b., 3.e, and 3.f. of these test

procedures with the following modifications and additions:

1993 THROUGH 2000 METHANOL-SPECIFIC AND ETHANOL-SPECIFIC

FORMALDEHYDE EXHAUST EMISSION STANDARDS

Loaded Durability

Vehicle Vehicle

Vehicle Weight Basis Formaldehyde (mg/mi)

1 3 2

Type (lbs.) (mi) Certification In-Use Compliance

PC All 50,000 15 23 (1993-1995)

15 (1996- 2000)

LDT,MDV 0-3750 50,000 15 23 (1993-1995)

15 (1996- 2000)

LDT,MDV 3751-5750 50,000 18 27 (1993-1995)

18 (1996- 2000)

MDV 5751-8500 50,000 22 33 (1993-1995)

22 (1996- 2000)

MDV 8501-10,000 50,000 28 36 (1995)

28 (1996- 2000)

MDV 10,001-14,000 50,000 36 45 (1995)

36 (1996- 2000)

(1) "PC" means passenger cars.

"LDT" means light-duty trucks.

"MDV" means medium-duty vehicles.

(2) If the formaldehyde in-use compliance level is above the respective certification level but does not

exceed the in-use compliance level, and based on a review of information derived from a statistically

valid and representative sample of vehicles, the Executive Officer determines that a substantial

percentage of any class or category of such vehicle exhibits, prior to 50,000 miles or 5 years,

whichever occurs first, an identifiable, systematic defect in a component listed in Section

1960.1.5(c)(2), Title 13 California Code of Regulations, which causes a significant increase in

emissions above those exhibited by vehicles free of such defects and of the same class or category and

having the same period of use and mileage, the Executive Officer may invoke the enforcement

authority under subchapter 2.5, Title 13, California Code of Regulations, commencing with Section

2111, to require remedial action by the vehicle manufacturer. Such remedial action shall be limited to

owner notification and repair or replacement of the defect component. As used in this section, the term

"defect" shall not include failures which are the result of abuse, neglect, or improper maintenance.

(3) For 1995-2000 model year medium-duty vehicles certifying to the standards and test procedures

specified in Section 1960.1(h)(1), Title 13, California Code of Regulations, "Loaded Vehicle Weight"

As Amended 8/5/99

3-5

shall mean "Test Weight", which is the average of the vehicle's curb weight and gross vehicle weight.

d. The exhaust emission levels from 1992-2000 model-year LEV I transitional

low-emission vehicles, low-emission vehicles, ultra-low-emission vehicles, and super-ultra-low-

emission vehicles, including fuel-flexible and dual-fuel vehicles, shall meet all the requirements of

Sections 3.g and 3.j of these test procedures with the following additions:

FORMALDEHYDE EXHAUST EMISSION STANDARDS

IN THE LOW-EMISSION VEHICLES IN THE LIGHT-DUTY AND

MEDIUM-DUTY VEHICLE WEIGHT CLASSES

5,6

["milligrams per mile" (or "mg/mi")]

Vehicle Durability Vehicle

Vehicle Weight Vehicle Basis Emission Formaldehyde

1 2 3 4

Type (lbs.) (mi) Category (mg/mi)

PC and All 50,000 TLEV 15 (23)

LDT 0-3750 LEV 15 (15)

ULEV 8 (12)

100,000 TLEV 18

LEV 18

ULEV 11

LDT 3751-5750 50,000 TLEV 18 (27)

LEV 18 (18)

ULEV 9 (14)

100,000 TLEV 23

LEV 23

ULEV 13

MDV 0-3750 50,000 LEV 15 (15)

ULEV 8 (12)

120,000 LEV 22

ULEV 12

MDV 3751-5750 50,000 LEV 18 (18)

ULEV 9 (14)

SULEV 4 (7)

120,000 LEV 27

ULEV 13

SULEV 6

MDV 5751-8500 50,000 LEV 22 (22)

ULEV 11 (17)

SULEV 6 (8)

120,000 LEV 32

ULEV 16

SULEV 8

MDV 8501-10,000 50,000 LEV 28 (28)

ULEV 14 (21)

SULEV 7 (10)

120,000 LEV 40

ULEV 21

SULEV 10

MDV 10,001- 50,000 LEV 36 (36)

14,000 ULEV 18 (27)

SULEV 9 (14)

120,000 LEV 52

ULEV 26

SULEV 13

As Amended 8/5/99

3-6

(1) "PC" means passenger cars.

"LDT" means light-duty trucks.

"MDV" means medium-duty vehicles.

(2) For light-duty or medium-duty vehicles, Vehicle Weight shall mean "Loaded Vehicle Weight" (or

"LVW") or "Test Weight" (or "TW"), respectively.

(3) "TLEV" means transitional low-emission vehicle.

"LEV" means low-emission vehicle.

"ULEV" means ultra-low-emission vehicle.

"SULEV" means super ultra-low-emission vehicle.

(4) The standards in parentheses are intermediate in-use compliance standards for 50,000 miles.

a. For PCs and LDTs from 0-5750 lbs. LVW, including fuel-flexible and dual-fuel

vehicles, intermediate in-use compliance standards shall apply to TLEVs through the 1995 model year,

and LEVs and ULEVs through the 1998 model year. In-use compliance with standards beyond 50,000

miles shall be waived through the 1995 model year for TLEVs, and through the 1998 model year for

LEVs and ULEVs.

b. For MDVs from 0-14,000 lbs. TW, including fuel-flexible and dual-fuel vehicles,

intermediate in-use compliance standards shall apply to LEVs, ULEVs, and SULEVs through the

1999 model year. In-use compliance with standards beyond 50,000 miles shall be waived through the

1999 model year for LEVs, ULEVs, and SULEVs.

(5) Manufacturers shall demonstrate compliance with the above standards for formaldehyde at 50

according to the procedure specified in Section 11k of these test procedures. Hybrid electric, natural

gas, and diesel-fueled vehicles shall be exempt from 50 F test requirements.

(6) In-use compliance testing shall be limited to PCs and LDTs with fewer than 75,000 miles and MDVs

with fewer than 90,000 miles.

As Amended 8/5/99

3-7

e. The exhaust emissions from new 1993 and 1994 model passenger cars and

light-duty trucks, except those produced by a small volume manufacturer, shall not exceed:

1993 AND 1994 MODEL-YEAR PASSENGER CAR AND LIGHT-DUTY TRUCK

EXHAUST EMISSIONS STANDARDS

5,6,10

(grams per mile)

Loaded Durability

Vehicle Vehicle Vehicle Non-Methane Carbon Oxides of

1 2,8,9 8,9 1,3,4

Type Weight (lbs) Basis (mi) Hydrocarbons Monoxide Nitrogen

PC All 50,000 0.39 (0.25) 7.0 (3.4) 0.4

All 50,000 0.39 (0.25) 7.0 (3.4) 0.7

PC All 100,000 (0.31) (4.2) n/a

Diesel PC All 100,000 0.46 (0.31) 8.3 (4.2) 1.0

(Option 2)

LDT 0-3750 50,000 0.39 (0.25) 9.0 (3.4) 0.4

LDT

0-3750 50,000 0.39 (0.25) 9.0 (3.4) 0.7

LDT 0-3750 100,000 (0.31) (4.2) n/a

Diesel LDT 0-3750 100,000 0.46 (0.31) 10.6 (4.2) 1.0

(Option 2)

LDT 3751-5750 50,000 0.50 (0.32) 9.0 (4.4) 1.0

LDT 3751-5750 100,000 (0.40) (5.5) n/a

Diesel LDT 3751-5750 100,000 0.50 (0.40) 9.0 (5.5) 1.5

(Option 1)

(1) "PC" means passenger cars.

"LDT" means light-duty trucks.

"n/a" means not applicable.

(2) In order to demonstrate compliance with a non-methane hydrocarbon emission standard, hydrocarbon

emissions shall be measured in accordance with the "California Non-Methane Hydrocarbon Test

Procedures." For methanol-fueled vehicles certifying to these standards, including fuel-flexible

vehicles when certifying on methanol, "Non-Methane Hydrocarbons" shall mean "Organic Material

Hydrocarbon Equivalent" (or "OMHCE"). For alcohol vehicles certifying to the phase-in standards in

parenthesis, including fuel-flexible vehicles when certifying on methanol or ethanol, "Non-Methane

Hydrocarbons" shall mean "Organic Material Non-Methane Hydrocarbon Equivalent" (or

"OMNMHCE").

(3) The maximum projected emissions of oxides of nitrogen measured on the federal Highway Fuel

Economy Test (HWFET; 40 CFR Part 600 Subpart B) shall be not greater than 1.33 times the

applicable passenger car standards and 2.00 times the applicable light-duty truck and medium-duty

vehicle standards shown in the table. Both the projected emissions and the HWFET standard shall be

rounded in accordance with ASTM E29-67 to the nearest 0.1 g/mi before being compared.

(4) The standard for in-use compliance for passenger cars and light-duty trucks certifying to the 0.4 g/mi

NOx standard shall be 0.55 g/mi NOx for 50,000 miles. If the in-use compliance level is above 0.4

g/mi NOx but does not exceed 0.55 g/mi NOx, and based on a review of information derived from a

statistically valid and representative sample of vehicles, the Executive Officer determines that a

substantial percentage of any class or category of such vehicles exhibits, prior to 50,000 miles or 5

years, whichever occurs first, an identifiable, systematic defect in a component listed in Section

As Amended 8/5/99

3-8

1960.1.5(c)(2), Title 13 California Code of Regulations, which causes a significant increase in

emissions above those exhibited by vehicles free of such defects and of the same class or category and

having the same period of use and mileage, then the Executive Officer may invoke the enforcement

authority under subchapter 2.5, Title 13, California Code of Regulations, commencing with Section

2111, to require remedial action by the vehicle manufacturer. Such remedial action shall be limited to

owner notification and repair or replacement of the defective component. As used in this section, the

term "defect" shall not include failures which are the result of abuse, neglect, or improper maintenance.

This provision is applicable for the 1993 model year only.

(5) Diesel passenger cars and light-duty trucks certifying to these standards are subject to a particulate

exhaust emission standard of 0.08 g/mi, determined on a 50,000 mile durability vehicle basis.

(6) For gaseous-fueled vehicles certifying to these standards, the calculation procedures provided in

Appendix V shall be used for determining emissions and fuel economy.

(7) This set of standards is optional. A manufacturer may choose to certify to these standards pursuant to

the conditions set forth in Section 1960.1.5 of Title 13, California Code of Regulations.

(8) The emission standards in parenthesis are phase-in standards. For the 1993 model year, each

manufacturer must certify a minimum of 40% of their vehicles to the phase-in standards or to the more

stringent standards in Section 3.g of these test procedures. The percentage shall be applied to the

manufacturers' total projected sales of California-certified passenger cars and light-duty trucks for the

1993 model year. For 1994 and subsequent model years, manufacturers shall comply with the fleet

average requirements specified in Section 3.h. of these test procedures.

(9) The following conditions shall apply to the in-use compliance standards of 1993 and 1994 model-year

passenger cars and light-duty trucks only.

(a) The in-use compliance standards for those passenger cars and light-duty trucks

certifying to the 0.25 g/mi non-methane hydrocarbon and 3.4 g/mi carbon monoxide standards shall be

0.32 g/mi non-methane hydrocarbon and 5.2 g/mi carbon monoxide for 50,000 miles.

(b) The in-use compliance standards for those light-duty trucks certifying to the 0.32 g/mi

non-methane hydrocarbon and 4.4 g/mi carbon monoxide standards shall be 0.41 g/mi non-methane

hydrocarbon and 6.7 g/mi carbon monoxide for 50,000 miles.

(10) All passenger cars and light-duty trucks, except those diesel vehicles certifying to optional 100,000

mile standards, are subject to non-methane hydrocarbon, carbon monoxide, and oxides of nitrogen

standards determined on a 50,000 mile durability basis and non-methane hydrocarbon and carbon

monoxide standards determined on a 100,000 mile basis.

As Amended 8/5/99

3-9

f. The exhaust emissions from new 1995-2000 model Tier 1 passenger cars and

light-duty trucks shall not exceed:

1995-2000 MODEL-YEAR TIER 1 PASSENGER CAR AND

LIGHT-DUTY TRUCK EXHAUST EMISSIONS STANDARDS

5,6,8,9,11

(grams per mile)

Loaded Durability

Vehicle Vehicle Vehicle Non-Methane Carbon Oxides of

1 2,7 7 1,3

Type Weight (lbs) Basis (mi) Hydrocarbons Monoxide Nitrogen

PC All 50,000 0.25 3.4 0.4

PC All 100,000 0.31 4.2 0.6

Diesel PC All 100,000 0.31 4.2 1.0

(Option 2)

LDT 0-3750 50,000 0.25 3.4 0.4

LDT 0-3750 100,000 0.31 4.2 0.6

Diesel LDT 0-3750 100,000 0.31 4.2 1.0

(Option 2)

LDT 3751-5750 50,000 0.32 4.4 0.7

LDT 3751-5750 100,000 0.40 5.5 0.97

Diesel LDT 3751-5750 100,000 0.40 5.5 1.5

(Option 1)

(1) "PC" means passenger cars.

"LDT" means light-duty trucks.

(2) In order to demonstrate compliance with a non-methane hydrocarbon emission standard, hydrocarbon

emissions shall be measured in accordance with the "California Non-Methane Hydrocarbon Test

Procedures." For alcohol-fueled vehicles certifying to these standards, including fuel-flexible vehicles

when certifying on methanol or ethanol, "Non-Methane Hydrocarbons" shall mean "Organic Material

Non-Methane Hydrocarbon Equivalent" (or "OMNMHCE").

(3) The maximum projected emissions of oxides of nitrogen measured on the federal Highway Fuel

Economy Test (HWFET; 40 CFR Part 600 Subpart B) shall be not greater than 1.33 times the

applicable passenger car standards and 2.00 times the applicable light-duty truck standards shown in

the table. Both the projected emissions and the HWFET standard shall be rounded in accordance with

ASTM E29-67 to the nearest 0.1 g/mi before being compared.

(4) Small volume manufacturers may choose to certify to an optional 0.7 g/mi NOx standard for the 1995

model year only, pursuant to the conditions set forth in Title 13, California Code of Regulations,

Sections 1960.1(f)(1) and 1960.1.5.

(5) Diesel passenger cars and light-duty trucks certifying to these standards are subject to a particulate

exhaust emission standard of 0.08 g/mi, determined on a 50,000 mile durability vehicle basis.

(6) For gaseous-fueled vehicles certifying to these standards, the calculation procedures provided in

Appendix V shall be used for determining fuel economy.

(7) For all vehicles, except those certifying to optional diesel standards, in-use compliance with the

exhaust emission standards shall be limited to vehicles with less than 75,000 miles.

(8) For the 1995 and 1996 model years, all manufacturers, except those certifying to optional diesel

standards, are permitted alternative in-use compliance. Alternative in-use compliance is permitted for

60% of a manufacturer's vehicles in the 1995 model year and 20% of a manufacturer's vehicles in the

As Amended 8/5/99

3-10

1996 model year. For the 1995 and 1996 model years, small volume manufacturers only are permitted

alternative in-use compliance for 100% of the fleet. The percentages shall be applied to the

manufacturers' total projected sales of California-certified passenger cars and light-duty trucks for the

model year. "Alternative in-use compliance" shall consist of the following:

a. For all passenger cars and those light-duty trucks from 0-3750 lbs., loaded vehicle weight,

except those diesel vehicles certifying to optional 100,000 mile standards, in-use compliance

standards shall be 0.32 g/mi non-methane hydrocarbon and 5.2 g/mi carbon monoxide for

50,000 miles.

b. For light-duty trucks from 3751-5750 lbs., loaded vehicle weight, except those diesel

light-duty trucks certifying to optional 100,000 mile standards, in-use compliance standards

shall be 0.41 g/mi non-methane hydrocarbon and 6.7 g/mi carbon monoxide for 50,000 miles.

c. In-use compliance standards shall be waived beyond 50,000 miles.

(9) All passenger cars and light-duty trucks, except those diesel vehicles certifying to optional standards,

are subject to non-methane hydrocarbon, carbon monoxide, and oxides of nitrogen standards

determined on a 50,000 mile durability basis and non-methane hydrocarbon and carbon monoxide

standards determined on a 100,000 mile durability basis.

(10) All 1996 and subsequent model-year PCs and LDTs shall comply with the applicable 100,000 mile

standards for NOx.

(11) Each manufacturer shall certify PCs or LDTs to the exhaust emission standards of Sections 3.f. and

3.g. of these test procedures such that the manufacturer's fleet average NMOG values for

California-certified PCs and LDTs from 0-3750 lbs. Loaded Vehicle Weight (or "LVW"), and LDTs

from 3751-5750 lbs. LVW produced and delivered for sale in California are less than or equal to the

requirement for the corresponding Model Year, Vehicle Type, and LVW Class in Section 3.h. of these

test procedures.

As Amended 8/5/99

3-11

g. The exhaust emissions from new 1992-2000 model-year LEV I transitional

low-emission vehicles, low-emission vehicles and ultra-low-emission vehicles, and new 2003 and

subsequent model-year zero-emission vehicles shall not exceed:

LEV I EXHAUST MASS EMISSION STANDARDS

FOR TRANSITIONAL LOW-EMISSION VEHICLES, LOW-EMISSION VEHICLES,

ULTRA-LOW-EMISSION VEHICLES AND ZERO-EMISSION VEHICLES IN

PASSENGER CAR AND LIGHT-DUTY TRUCK VEHICLE CLASSES

6,7,8,9,10

["grams per mile" (or "g/mi")]

Loaded Durability Vehicle

Vehicle Vehicle Vehicle Emission Non-Methane Carbon Oxides of

1 2 3,4 5

Type Weight (lbs) Basis (mi) Category Organic Gases Monoxide Nitrogen

PC and All 50,000 TLEV 0.125 3.4

0.4

LDT 0-3750 LEV 0.075 3.4 0.2

ULEV 0.040 1.7 0.2

100,000 TLEV 0.156 4.2 0.6

LEV 0.090 4.2 0.3

ULEV 0.055 2.1 0.3

LDT 3751-5750 50,000 TLEV 0.160 4.4

0.7

LEV 0.100 4.4 0.4

ULEV 0.050 2.2 0.4

100,000 TLEV 0.200 5.5 0.9

LEV 0.130 5.5 0.5

ULEV 0.070 2.8 0.5

(1) "PC" means passenger cars.

"LDT" means light-duty trucks.

"LVW" means loaded vehicle weight.

"Non-Methane Organic Gases" or "NMOG" means the total mass of oxygenated and non-oxygenated

hydrocarbon emissions.

(2) "TLEV" means transitional low-emission vehicle.

"LEV" means low-emission vehicle.

"ULEV" means ultra-low-emission vehicle.

(3) Compliance with NMOG Standard. To demonstrate compliance with an NMOG standard, NMOG

emissions shall be measured in accordance with the "California Non-Methane Organic Gas Test

Procedures" adopted July 12, 1991 and as last amended June 24, 1996.

a. Reactivity Adjustment. For TLEVs, LEVs, and ULEVs certified to operate on a

fuel other than conventional gasoline, including fuel-flexible and dual-fuel vehicles when certifying on

a fuel other than gasoline, manufacturers shall multiply the exhaust NMOG certification levels by the

applicable reactivity adjustment factor set forth in Section 13 of these test procedures, or established

by the Executive Officer pursuant to Appendix VIII of these test procedures. In addition, natural gas

vehicles certifying to TLEV, LEV or ULEV standards shall calculate a reactivity-adjusted methane

exhaust emission value by multiplying the methane exhaust certification level by the applicable

methane reactivity adjustment factor set forth in section 13 of these test procedures. The product of

As Amended 8/5/99

3-12

the exhaust NMOG certification levels and the reactivity adjustment factor shall be compared with the

exhaust NMOG mass emission standards established for the particular vehicle emission category and

fuel to determine compliance. For natural gas vehicles, the reactivity-adjusted NMOG value shall be

added to the reactivity-adjusted methane value and then compared to the exhaust NMOG mass

emission standards established for the particular vehicle emission category to determine compliance.

b. Fleet Average Requirement. Each manufacturer shall certify PCs or LDTs to meet

the exhaust mass emission standards for TLEVs, LEVs, ULEVs, or to the exhaust emission standards

of Sections 3.b., 3.e., or 3.f. of these test procedures, or as Zero-Emission Vehicles, such that the

manufacturer's fleet average NMOG values for California-certified PCs and LDTs from 0-3750 lbs.

LVW, and LDTs from 3751-5750 lbs. LVW, produced and delivered for sale in California are less

than or equal to the requirement for the corresponding Model Year, Vehicle Type, and LVW Class in

Section 3.h. of these test procedures.

(4) NMOG Standards for Fuel-Flexible and Dual-Fuel Vehicles. Fuel-flexible and dual-fuel PCs and

LDTs from 0-5750 lbs. LVW shall be certified to exhaust mass emission standards for NMOG

established for the operation of the vehicle on an available fuel other than gasoline, and gasoline as

specified in Section 9.a.1. of these test procedures.

a. Reactivity Adjustment. For TLEVs, LEVs, and ULEVs, when certifying for

operation on a fuel other than gasoline, manufacturers shall multiply the exhaust NMOG certification

levels by the applicable reactivity adjustment factor. In addition to multiplying the exhaust NMOG

certification levels by the applicable reactivity adjustment factor, the exhaust methane certification

level for natural gas vehicles shall be multiplied by the applicable methane reactivity adjustment factor

and the resulting value shall be added to the reactivity-adjusted NMOG value. The exhaust NMOG

certification levels for fuel-flexible or dual-fuel vehicles when certifying on gasoline shall not be

multiplied by a reactivity adjustment factor.

b. Standards for Fuel-Flexible and Dual Fuel Vehicles Operating on Gasoline. For

PCs and LDTs from 0-5750 lbs. LVW, the applicable exhaust mass emission standard for NMOG

when certifying the vehicle for operation on gasoline shall be:

Vehicle Type Weight (LVW) Emission Durability Vehicle Basis (g/mi)

Category

50,000 Mile 100,000 Mile

PCs, LDT All, 0-3750 TLEV 0.25 0.31

LEV 0.125 0.156

ULEV 0.075 0.090

LDT 3751-5750 TLEV 0.32 0.40

LEV 0.160 0.200

ULEV 0.100 0.130

(5) Highway NOx Standard. The maximum projected emissions of Oxides of Nitrogen (or "NOx")

measured on the federal Highway Fuel Economy Test (HWFET; 40 CFR 600 Subpart B) shall not be

greater than 1.33 times the applicable light-duty vehicle standards shown in the table. Both the

projected emissions and the HWFET standard shall be rounded in accordance with ASTM E29-67 to

the nearest 0.1 g/mi before being compared.

(6) Intermediate In-Use Compliance Standards. The following standards are intermediate in-use

compliance standards for 50,000 and 100,000 miles for PCs and LDTs from 0-5750 lbs. LVW,

including fuel-flexible and dual-fuel vehicles when operating on an available fuel other than gasoline.

As Amended 8/5/99

3-13

Intermediate in-use compliance standards shall apply to TLEVs through the 1995 model year as

follows:

NMOG (g/mi)

PCs and LDTs 0-3750 lbs. LVW 0.188

LDTs 3751 - 5750 lbs. LVW 0.238

In-use compliance with standards beyond 50,000 miles shall be waived through the 1995 model year

for TLEVs, and through the 1998 model year for LEVs and ULEVs. For LEVs and ULEVs, the

following intermediate in-use standards shall apply:

Vehicle Type Durability

Vehicle

Basis

LEV (g/mi) ULEV (g/mi)

Model

Year

NMOG NOx Model Year NMOG CO NOx

PCs, 0-3750 lb. LVW

LDTs

50,000

through

1998

0.100 0.3 through

1998

0.058 2.6 0.3

50,000 1999 0.100 0.3 1999-2002 0.055 2.1 0.3

100,000 1999 0.125 0.4 1999-2002 0.075 3.4 0.4

3751-5750 lb. LVW

LDTs

50,000

through

1998

0.128 0.5 through

1998

0.075 3.3 0.5

50,000 1999 0.130 0.5 1999-2002 0.070 2.8 0.5

100,000 1999 0.160 0.7 1999-2002 0.100 4.4 0.7

a. Reactivity Adjustment. For TLEVs, LEVs, and ULEVs designed to operate on a

fuel other than conventional gasoline, including fuel-flexible and dual-fuel vehicles when operating on

a fuel other than gasoline, exhaust NMOG emission results shall be multiplied by the applicable

reactivity adjustment factor to determine compliance with intermediate in-use compliance standards for

NMOG. In addition to multiplying the exhaust NMOG emission results by the applicable reactivity

adjustment factor, the exhaust methane emission results for natural gas vehicles shall be multiplied by

the applicable methane reactivity adjustment factor and the resulting value shall be added to the

reactivity-adjusted NMOG value. Exhaust NMOG mass emissions from fuel-flexible or dual-fuel

vehicles when operating on gasoline shall not be multiplied by a reactivity adjustment factor.

b. Intermediate In-Use Standards for Fuel-Flexible and Dual-Fuel Vehicles

Operating on Gasoline. For fuel-flexible and dual-fuel PCs and LDTs from 0-5750 lbs. LVW,

intermediate in-use compliance standards for NMOG emissions at 50,000 miles when the vehicle is

operated on gasoline shall be:

As Amended 8/5/99

3-14

Vehicle Type Loaded Vehicle

Weight (LVW)

Emission

Category

Durability Vehicle

Basis (g/mi)

50,000 mi

PCs, LDT All, 0-3750 TLEV 0.32

LEV 0.188

ULEV 0.100

LDT 3751-5750 TLEV 0.41

LEV 0.238

ULEV 0.128

Intermediate in-use compliance standards shall apply to TLEVs through the 1995 model year, and to

LEVs and ULEVs through the 1998 model year. In-use compliance with standards beyond 50,000

miles shall be waived through the 1995 model year for TLEVs, and through the 1998 model year for

LEVs and ULEVs.

(7) Diesel Standards. Manufacturers of diesel vehicles shall also certify to particulate standards at

100,000 miles. For all PCs and LDTs from 0-3750 lbs. LVW, the particulate standard is 0.08 g/mi,

0.08 g/mi, and 0.04 g/mi for TLEVs, LEVs, and ULEVs, respectively. For LDTs from 3751-5750

lbs. LVW, the particulate standard is 0.10 g/mi, 0.10 g/mi, and 0.05 g/mi for TLEVs, LEVs, and

ULEVs, respectively. For diesel vehicles certifying to the standards set forth in section 3.g. of these

test procedures, "NMOG" shall mean non-methane hydrocarbons.

(8) 50 F Requirement. Manufacturers shall demonstrate compliance with the above standards for

NMOG, carbon monoxide and NOx at 50

F, according to the procedure specified in Section 11k of

these test procedures. Hybrid electric, natural gas, and diesel-fueled vehicles shall be exempt from 50

F test requirements.

(9) Limit on In-Use Testing. In-use compliance testing shall be limited to vehicles with fewer than

75,000 miles.

(10) HEV Requirements. Deterioration factors for hybrid electric vehicles shall be based on the emissions

and mileage accumulation of the auxiliary power unit. For certification purposes only, Type A hybrid

electric vehicles shall demonstrate compliance with 50,000 mile emission standards (using 50,000 mile

deterioration factors), and demonstrating compliance with 100,000 mile emission standards shall not

be required. For certification purposes only, Type B hybrid electric vehicles shall demonstrate

compliance with 50,000 mile emission standards (using 50,000 mile deterioration factors) and

100,000 mile emission standards (using 75,000 mile deterioration factors). For certification purposes

only, Type C hybrid electric vehicles shall demonstrate compliance with 50,000 mile emission

standards (using 50,000 mile deterioration factors) and 100,000 mile emission standards (using

100,000 mile deterioration factors).

As Amended 8/5/99

3-15

h. The fleet average non-methane organic gas exhaust mass emission values from the

passenger cars and light-duty trucks produced and delivered for sale in California by a manufacturer

each model year from 1994 through 2000 shall not exceed:

FLEET AVERAGE NON-METHANE ORGANIC GAS EXHAUST MASS EMISSION

REQUIREMENTS FOR LIGHT-DUTY VEHICLE WEIGHT CLASSES

7,8,9

[grams per mile" (or "g/mi")]

Loaded Durability Fleet Average

Vehicle Vehicle Vehicle Model Non-Methane

1 7 2,3,4,5,6

Type Weight (lbs.) Basis (mi) Year Organic Gases

PC and All 50,000 1994 0.250

LDT 0-3750 1995 0.231

1996 0.225

1997 0.202

1998 0.157

1999 0.113

2000 0.073

LDT 3751-5750 50,000 1994 0.320

1995 0.295

1996 0.287

1997 0.260

1998 0.205

1999 0.150

2000 0.099

(1) "PC" means passenger cars.

"LDT" means light-duty trucks.

"MDV" means medium-duty vehicles.

"LVW" means loaded vehicle weight.

(2) "Non-Methane Organic Gases" (or "NMOG") shall mean the total mass of oxygenated and

non-oxygenated hydrocarbon emissions.

(3) For the purpose of calculating fleet average NMOG values, vehicles which have no tailpipe emissions

but use fuel fired heaters and which are not certified as ZEVs shall be treated as Type A Hybrid

Electric Vehicles Ultra-Low-Emission Vehicles (or "Type A HEV ULEVs").

(4) Calculation of Fleet Average NMOG Value (PCs and LDTs from 0-3750 lbs. LVW). Each

manufacturer's fleet average NMOG value for the total number of PCs and LDTs from 0-3750 lbs.

LVW produced and delivered for sale in California shall be calculated in units of g/mi NMOG

according to the following equation, where the term "Produced" means produced and delivered for sale

in California:

{[(No. of vehicles certified to the exhaust emission standards in Section 3.b.

of these test procedures and produced) x (0.39)] +

[(No. of vehicles certified to the phase-in exhaust emission standards in Section 3.e.

of these test procedures and produced) x (0.25)] +

As Amended 8/5/99

3-16

[(No. of vehicles certified to the phase-out exhaust emission standards in 3.e. of these

test procedures and produced) x (0.39)] +

[(No. of vehicles certified to the exhaust emission standards in Section 3.f. of these

test procedures and produced) x (0.25)] +

[(No. of TLEVs produced excluding HEVs) x (0.125)] +

[(No. of LEVs produced excluding HEVs) x (0.075)] +

[(No. of ULEVs produced excluding HEVs) x (0.040)] +

(HEV contribution factor)} ÷

[Total No. of vehicles produced, including ZEVs and HEVs].

a. "HEV contribution factor" shall mean the NMOG emission contribution of HEVs to a

manufacturer's fleet average NMOG value. The HEV contribution factor shall be calculated in units of

g/mi as follows, where the term "Produced" means produced and delivered for sale in California:

HEV contribution factor =

{[No. of "Type A HEV" TLEVs produced] x (0.100) +

[No. of "Type B HEV" TLEVs produced] x (0.113) +

[No. of "Type C HEV" TLEVs produced] x (0.125)} +

{[No. of "Type A HEV" LEVs produced] x (0.057) +

[No. of "Type B HEV" LEVs produced] x (0.066) +

[No. of "Type C HEV" LEVs produced] x (0.075)} +

{[No. of "Type A HEV" ULEVs produced] x (0.020) +

[No. of "Type B HEV" ULEVs produced] x (0.030) +

[No. of "Type C HEV" ULEVs produced] x (0.040)}

b. ZEVs classified as LDTs 3751-5750 lbs. LVW which have been counted toward the

ZEV requirement for PCs and LDTs 0-3750 lbs. LVW as specified in note (9) shall be included in the

above equation of note (4).

c. Beginning with the 1996 model year, manufacturers that produce and deliver for sale

in California PCs and LDTs 0-3750 lbs. LVW that are certified to the Tier I exhaust emission

standards in 40 CFR 86.094-8 and 86.094-9 shall add the following term to the numerator of the fleet

average NMOG equation in note (4) and calculate their fleet average values accordingly: [(No. of

Vehicles Certified to federal Tier I exhaust emission standards and Produced) x (0.25)].

(5) Calculation of Fleet Average NMOG Value (LDTs 3751-5750 lbs. LVW.) Manufacturers that

certify LDTs from 3751-5750 lbs. LVW, shall calculate a fleet average NMOG value in units of g/mi

NMOG according to the following equation, where the term "Produced" means produced and delivered

for sale in California:

{[(No. of vehicles certified to the exhaust emission standards in Section 3.b. of these

test procedures and produced x (0.50)] +

[(No. of vehicles certified to the phase-in exhaust emission standards in Section 3.e.

of these test procedures and produced) x (0.32)] +

[(No. of vehicles certified to the phase-out exhaust emission standards in Section 3.e.

of these test procedures and produced) x (0.50)] +

[(No. of vehicles certified to the exhaust emission standards in Section 3.f. of these

test procedures and produced) x (0.32)] +

[(No. of TLEVs produced excluding HEVs) x (0.160)] +

[(No. of LEVs produced excluding HEVs) x (0.100)] +

[(No. of ULEVs produced excluding HEVs) x (0.050)] +

As Amended 8/5/99

3-17

(HEV contribution factor)} ÷

(Total No. of vehicles produced, including ZEVs and HEVs).

a. "HEV contribution factor" shall mean the NMOG emission contribution of HEVs to a

manufacturer's fleet average NMOG value. The HEV contribution factor shall be calculated in units of

g/mi as follows, where the term "Produced" means produced and delivered for sale in California:

HEV contribution factor =

{[No. of "Type A HEV" TLEVs Produced] x (0.130) +

[No. of "Type B HEV" TLEVs Produced] x (0.145) +

[No. of "Type C HEV" TLEVs Produced] x (0.160)} +

{[No. of "Type A HEV" LEVs Produced] x (0.075) +

[No. of "Type B HEV" LEVs Produced] x (0.087) +

[No. of "Type C HEV" LEVs Produced] x (0.100)} +

{[No. of "Type A HEV" ULEVs Produced] x (0.025) +

[No. of "Type B HEV" ULEVs Produced] x (0.037) +

[No. of "Type C HEV" ULEVs Produced] x (0.050)}

b. Only ZEVs which have been certified as LDTs 3751-5750 lbs. LVW and which have

not been counted toward the ZEV requirements for PCs and LDTs 0-3750 lbs. LVW as specified in

note (9) shall be included in the equation of note (5).

c. Beginning with the 1996 model year, manufacturers that produce and deliver for sale

in California LDTs 3751-5750 lbs. LVW that are certified to the Tier I exhaust emission standards in

40 CFR 86.094-9 shall add the following term to the numerator of the fleet average NMOG equation

in note (5) and calculate their fleet average NMOG values accordingly: [(No. of Vehicles Certified to

federal Tier I exhaust emission standards and Produced and Delivered for Sale in California) x (0.32)]

(6) Requirements for Small Volume Manufacturers. As used in this section 3.h. of these test

procedures, the term "small volume manufacturer" shall mean any vehicle manufacturer with

California sales less than or equal to 3000 new PCs, LDTs, and MDVs per model year based on the

average number of vehicles sold by the manufacturer each model year from 1989 to 1991, except as

otherwise noted below. For manufacturers certifying for the first time in California, model-year sales

shall be based on projected California sales. In 2000 and subsequent model years, small volume

manufacturers shall comply with the fleet average NMOG requirements set forth below.

a. Prior to the model year 2000, compliance with the specified fleet average NMOG

requirements shall be waived.

b. In the 2000 model year, small volume manufacturers shall not exceed a fleet average

NMOG value of 0.075 g/mi for PCs and LDTs from 0-3750 lbs. LVW calculated in accordance with

note (4).

c. In the 2000 model year, small volume manufacturers shall not exceed a fleet average

NMOG value of 0.100 g/mi for LDTs from 3751-5750 lbs. LVW calculated in accordance with

note (5).

d. If a manufacturer's average California sales exceeds 3000 units of new PCs, LDTs,

and MDVs based on the average number of vehicles sold for any three consecutive model years, the

manufacturer shall no longer be treated as a small volume manufacturer and shall comply with the fleet

average requirements applicable for larger manufacturers as specified in Section 3.h. of these test

procedures beginning with the fourth model year after the last of the three consecutive model years.

e. If a manufacturer's average California sales falls below 3000 units of new PCs, LDTs,

and MDVs based on the average number of vehicles sold for any three consecutive model years, the

manufacturer shall be treated as a small volume manufacturer and shall be subject to requirements for

As Amended 8/5/99

3-18

small volume manufacturers as specified in Section 3.h. of these test procedures beginning with the

next model year.

(7) Calculation of NMOG Credits/Debits and Procedure for Offsetting Debits.

a. In 1992 through 2000 model years, manufacturers that achieve fleet average NMOG

values lower than the fleet average NMOG requirement for the corresponding model year shall receive

credits in units of g/mi NMOG determined as:

[(Fleet Average NMOG Requirement) - (Manufacturer's Fleet Average NMOG Value)] x

(Total No. of Vehicles Produced and Delivered for Sale in California, Including ZEVs and HEVs).

Manufacturers with 1994 and subsequent model year fleet average NMOG values greater than the fleet

average requirement for the corresponding model year shall receive debits in units of g/mi NMOG

equal to the amount of negative credits determined by the aforementioned equation. For any given

model year, the total g/mi NMOG credits or debits earned for PCs and LDTs 0-3750 lbs. LVW and for

LDTs 3751-5750 lbs. LVW shall be summed together. The resulting amount shall constitute the g/mi

NMOG credits or debits accrued by the manufacturer for the model year.

b. For the 1994 through 1997 model years, manufacturers shall equalize emission debits

within three model years and prior to the end of the 1998 model year by earning g/mi NMOG emission

credits in an amount equal to their g/mi NMOG debits, or by submitting a commensurate amount of

g/mi NMOG credits to the Executive Officer that were earned previously or acquired from another

manufacturer. For 1998 through 2000 model years, manufacturers shall equalize emission debits by

the end of the following model year. If emission debits are not equalized within the specified time

period, the manufacturer shall be subject to the Health and Safety Code section 43211 civil penalty

applicable to a manufacturer which sells a new motor vehicle that does not meet the applicable

emission standards adopted by the state board. The cause of action shall be deemed to accrue when the

emission debits are not equalized by the end of the specified time period. For the purposes of Health

and Safety Code section 43211, the number of vehicles not meeting the state board's emission

standards shall be determined by dividing the total amount of g/mi NMOG emission debits for the

model year by the g/mi NMOG fleet average requirement for PCs and LDTs 0-3750 lbs. LVW

applicable for the model year in which the debits were first incurred.

c. The g/mi NMOG emission credits earned in any given model year shall retain full

value through the subsequent model year. The g/mi NMOG value of any credits not used to equalize

the previous model-year's debit, shall be discounted by 50% at the beginning of second model year

after being earned, discounted to 25% of its original value if not used by the beginning of the third

model year after being earned, and will have no value if not used by the beginning of the fourth model

year after being earned.

d. In order to verify the status of a manufacturer's compliance with the fleet average

requirements for a given model year, and in order to confirm the accrual of NMOG credits or debits,

each manufacturer shall submit an annual report to the Executive Officer which sets forth the

production data used to establish compliance by no later than March 1 of the calendar year following

the close of the model year.

(8) Credits for Pre-1994 Model Year Vehicles. Manufacturers that produce and deliver for sale in

California vehicles certified to the phase-in exhaust emission standards in Section 3.e. of these test

procedures or vehicles certified to the exhaust emission standards in Sections 3.f. or 3.g. of these test

procedures and/or ZEVs in the 1992 and 1993 model years, shall receive emission credits as

determined by the equations in notes (4), (5), and (7).

a. For PCs and LDTs from 0-3750 lbs. LVW, the fleet average NMOG requirement for

calculating a manufacturer's emission credits shall be 0.390 and 0.334 g/mi NMOG for vehicles

certified in the 1992 and 1993 model years, respectively.

As Amended 8/5/99

3-19

b. For LDTs from 3751-5750 lbs. LVW, the fleet average NMOG requirement for

calculating a manufacturer's emission credits shall be 0.500 and 0.428 g/mi NMOG for vehicles

certified in the 1992 and 1993 model years, respectively.

c. Emission credits earned prior to the 1994 model year shall be considered as earned in

the 1994 model year and discounted in accordance with the schedule specified in note (7).

As Amended 8/5/99

3-20

i. The exhaust emissions from new 1995-2000 model Tier 1 medium-duty vehicles

shall not exceed:

1995-2000 MODEL-YEAR TIER 1 MEDIUM-DUTY VEHICLE EXHAUST

EMISSIONS STANDARDS

1,2,3,7,8

(grams per mile)

Durability

Test Vehicle Non-Methane Carbon Oxides of

4 5 6

Weight(lbs.) Basis(mi) Hydrocarbons Monoxide Nitrogen Particulates

0-3,750 50,000 0.25 3.4 0.4 n/a

0-3,750 120,000 0.36 5.0 0.55 0.08

3,751-5,750 50,000 0.32 4.4 0.7 n/a

3,751-5,750 120,000 0.46 6.4 0.98 0.10

5,751-8,500 50,000 0.39 5.0 1.1 n/a

5,751-8,500 120,000 0.56 7.3 1.53 0.12

8,501-10,000 50,000 0.46 5.5 1.3 n/a

8,501-10,000 120,000 0.66 8.1 1.81 0.12

10,001-14,000 50,000 0.60 7.0 2.0 n/a

10,001-14,000 120,000 0.86 10.3 2.77 0.12

(1) "n/a" means not applicable.

"Test Weight" (or "TW") shall mean the average of the vehicle's curb weight and gross vehicle weight.

(2) Manufacturers have the option of certifying engines used in incomplete and diesel medium-duty

vehicles from 8501-14,000 pounds gross vehicle weight to the heavy-duty engine standards and test

procedures set forth in Section 1956.8(g), Title 13, California Code of Regulations. Manufacturers

certifying incomplete or diesel medium-duty vehicles to the heavy-duty engine standards and test

procedures shall specify, in the application for certification, an in-use compliance test procedure, as

provided in Sections 2139(c), Title 13, California Code of Regulations.

(3) For the 1995 model year only, manufacturers of medium-duty vehicles may certify a maximum of 50

percent of their vehicles to the applicable 1994 model year standards and test procedures. The

percentage shall be based upon each manufacturer's projected sales of California-certified

medium-duty vehicles. For the 1995 model year only, small volume manufacturers may certify 100

percent of their vehicles to the applicable 1994 model-year standards and test procedures.

(4) For alcohol-fueled vehicles certifying to these standards, including fuel-flexible vehicles when

certifying on methanol or ethanol, "Non-Methane Hydrocarbons" shall mean "Organic Material

Non-Methane Hydrocarbon Equivalent" (or "OMNMHCE").

(5) The maximum projected emissions of oxides of nitrogen measured on the federal Highway Fuel

Economy Test (HWFET; 40 CFR Part 600 Subpart B) shall be not greater than 2.00 times the

applicable medium-duty vehicle standards shown in the table. Both the projected emissions and the

HWFET standard shall be rounded in accordance with ASTM E29-67 to the nearest 0.1 g/mi before

being compared.

As Amended 8/5/99

3-21

(6) Particulate standards are only applicable for diesel vehicles and shall be determined on a 120,000 mile

basis.

(7) In-use compliance testing shall be limited to vehicles with less than 90,000 miles. For the 1995

through 1997 model years, alternative in-use compliance is available for medium-duty vehicle

manufacturers. A manufacturer may use alternative in-use compliance for up to 100 percent of its fleet

in the 1995 and 1996 model years and up to 50 percent of its fleet in the 1997 model year. Small

volume manufacturers only may use alternative in-use compliance for up to 100 percent of their fleet in

the 1995 through 1997 model years. The percentages shall be determined only from the

manufacturer's projected California sales of medium-duty vehicles. For vehicles certified to the

standards and test procedures of this subsection, "alternative in-use compliance" shall consist of an

in-use allowance of 25 percent over the applicable 1995 model-year hydrocarbon, carbon monoxide,

and oxides of nitrogen 50,000 mile emission standards and a waiver of the emission standards beyond

50,000 miles.

(8) All medium-duty vehicles, except diesel-fueled vehicles and those incomplete and diesel vehicles

certifying to heavy-duty engine test procedures, are subject to 50,000 mile and 120,000 mile

non-methane hydrocarbon, carbon monoxide, and oxides of nitrogen standards. Diesel-fueled vehicles

shall be subject to 120,000 mile non-methane hydrocarbon, carbon monoxide, oxides of nitrogen, and

particulate standards only.

As Amended 8/5/99

3-22

j. The exhaust emission levels from new 1992-2000 model-year LEV I medium-duty

low-emission vehicles, ultra-low-emission vehicles and super-ultra-low-emission vehicles shall not

exceed:

LEV I EXHAUST EMISSION STANDARDS FOR

LOW-EMISSION VEHICLES, ULTRA-LOW-EMISSION VEHICLES

AND SUPER-ULTRA-LOW-EMISSION VEHICLES IN THE

MEDIUM-DUTY VEHICLE WEIGHT CLASS

8,9,10, 11, 12, 13,14, 15, 16

[grams per mile (or "g/mi")]

Durability Vehicle

Test Vehicle Emission Non-Methane Carbon Oxides of

1 2 1,3,4 3,5 6,7

Weight (lbs) Basis (mi) Category Organic Gases Monoxide Nitrogen Particulates

0-3750 50,000 LEV 0.125 3.4 0.4 n/a

ULEV 0.075 1.7 0.2 n/a

120,000 LEV 0.180 5.0 0.6 0.08

ULEV 0.107 2.5 0.3 0.04

3751-5750 50,000 LEV 0.160 4.4 0.4 n/a

ULEV 0.100 4.4 0.4 n/a

SULEV 0.050 2.2 0.2 n/a

120,000 LEV 0.230 6.4 0.6 0.10

ULEV 0.143 6.4 0.6 0.05

SULEV 0.072 3.2 0.3 0.05

5751-8500 50,000 LEV 0.195 5.0 0.6 n/a

ULEV 0.117 5.0 0.6 n/a

SULEV 0.059 2.5 0.3 n/a

120,000 LEV 0.280 7.3 0.9 0.12

ULEV 0.167 7.3 0.9 0.06

SULEV 0.084 3.7 0.45 0.06

8501- 50,000 LEV 0.230 5.5 0.7 n/a

10,000 ULEV 0.138 5.5 0.7 n/a

SULEV 0.069 2.8 0.35 n/a

120,000 LEV 0.330 8.1 1.0 0.12

ULEV 0.197 8.1 1.0 0.06

SULEV 0.100 4.1 0.5 0.06

10,001- 50,000 LEV 0.300 7.0 1.0 n/a

14,000 ULEV 0.180 7.0 1.0 n/a

SULEV 0.09 3.5 0.5 n/a

120,000 LEV 0.430 10.3 1.5 0.12

ULEV 0.257 10.3 1.5 0.06

SULEV 0.130 5.2 0.7 0.06

(1) "Test Weight" (or "TW") shall mean the average of the vehicle's curb weight and gross vehicle weight.

"Non-Methane Organic Gases" (or "NMOG") means the total mass of oxygenated and

non-oxygenated hydrocarbon emissions.

As Amended 8/5/99

3-23

(2) "LEV" means low-emission vehicle.

"ULEV" means ultra-low-emission vehicle.

"SULEV" means super ultra-low-emission vehicle.

(3) Compliance with NMOG Standards. To determine compliance with an NMOG standard, NMOG

emissions shall be measured in accordance with "California Non-Methane Organic Gas Test

Procedures" adopted July 12, 1991 and last amended June 24, 1996.

a. Reactivity Adjustment. For LEVs and ULEVs certified to operate on an available

fuel other than conventional gasoline, including fuel-flexible or dual-fuel vehicles when certifying on a

fuel other than gasoline, manufacturers shall multiply the NMOG exhaust certification levels by the

applicable reactivity adjustment factor set forth in Section 13 of these test procedures or established by

the Executive Officer pursuant to Appendix VIII of these test procedures. In addition, natural gas

vehicles certifying to LEV or ULEV standards shall calculate a reactivity-adjusted methane exhaust

emission value by multiplying the methane exhaust certification level by the applicable methane

reactivity adjustment factor set forth in section 13 of these test procedures. The product of the exhaust

NMOG certification levels and the reactivity adjustment factor shall be compared to the exhaust

NMOG mass emission standard established for the particular vehicle emission category to determine

compliance. For natural gas vehicles, the reactivity-adjusted NMOG value shall be added to the

reactivity-adjusted methane value and then compared to the exhaust NMOG mass emission standards

established for the particular vehicle emission category to determine compliance.

b. Pre-1998 NOx standards. Prior to the 1998 model year, the 50,000 mile and

120,000 mile LEV exhaust mass emission standards for NOx shall be: 0.7 and 1.0 g/mi for MDVs

from 3751-5750 lbs. TW, 1.1 and 1.5 g/mi for MDVs from 5751-8500 lbs. TW, 1.3 and 1.8 g/mi for

MDVs from 8501-10,000 lbs. TW, and 2.0 and 2.8 g/mi for MDVs from 10,001-14,000 lbs. TW,

respectively.

(4) NMOG Standards for Fuel-Flexible and Dual-Fuel Vehicles. Fuel-flexible and dual-fuel

"Medium-Duty Vehicles" (or "MDVs") from 0-14,000 lbs. TW shall be certified to exhaust mass

emission standards for NMOG established for the operation of the vehicle on a fuel other than

gasoline, and gasoline.

a. Reactivity Adjustment. For LEVs and ULEVs when certifying on the fuel other

than gasoline, manufacturers shall multiply the exhaust NMOG certification levels by the applicable

reactivity adjustment factor. In addition to multiplying the exhaust NMOG certification levels by the

applicable reactivity adjustment factor, the exhaust methane certification level for natural gas vehicles

shall be multiplied by the applicable methane reactivity adjustment factor and the resulting value shall

be added to the reactivity-adjusted NMOG value. When certifying on gasoline, the exhaust NMOG

certification levels of fuel-flexible and dual-fuel vehicles shall not be multiplied by a reactivity

adjustment factor.

As Amended 8/5/99

3-24

b. Standards for Fuel-Flexible and Dual-Fuel Vehicles Operating on Gasoline. For

MDVs from 0-14,000 lbs. TW, the applicable exhaust mass emission standard for NMOG when

certifying the vehicle for operation on gasoline shall be:

Test Weight

(lbs.)

Vehicle Emission

Category

Durability Vehicle Basis

50,000 (g/mi) 120,000 (g/mi)

0-3750 LEV 0.25 0.36

ULEV 0.125 0.180

3751-5750 LEV 0.32 0.46

ULEV 0.160 0.230

SULEV 0.100 0.143

5751-8500 LEV 0.39 0.56

ULEV 0.195 0.280

SULEV 0.117 0.167

8501-10,000 LEV 0.46 0.66

ULEV 0.230 0.330

SULEV 0.138 0.197

10,001-14,000 LEV 0.60 0.86

ULEV 0.300 0.430

SULEV 0.180 0.257

(5) Highway NOx. The maximum projected emissions of Oxides of Nitrogen (or "NOx") measured on

the federal Highway Fuel Economy Test (HWFET; 40 CFR Part 600 Subpart B) shall not be greater

than 2.00 times the applicable MDV standards shown in the table. Both the projected emissions and

the HWFET standard shall be rounded in accordance with ASTM E29-67 to the nearest 0.1 g/mi

before being compared.

(6) Particulate standards are only applicable for diesel vehicles and shall be determined on a 120,000 mile

basis.

(7) "n/a" means not applicable.

(8) Certification of Incomplete and Diesel Vehicles. Manufacturers have the option of certifying

engines used in incomplete and diesel MDVs to the heavy-duty engine standards and test procedures

set forth in Section 1956.8(g) or (h) Title 13, California Code of Regulations. Manufacturers

certifying incomplete or diesel MDVs to the heavy-duty engine standards and test procedures shall

specify in the application for certification an in-use compliance procedure as provided in Section

2139(c), Title 13, California Code of Regulations. For diesel vehicles certifying to NMOG standards

set forth in section 3.j of these test procedures, "NMOG" shall mean non-methane hydrocarbons.

(9) Intermediate In-Use Compliance Standards. The following intermediate in-use compliance

standards for 50,000 miles and 120,000 miles for MDVs from 3751-14,000 lbs. TW, including

fuel-flexible and dual-fuel vehicles when operating on an available fuel other than gasoline, shall apply

for the specified model years only.

As Amended 8/5/99

3-25

Intermediate In-Use Compliance Standards*

(in grams per mile)

Emission

Category

Model

Year

Durability

Vehicle

Basis (mi)

3751-5750 lbs. 5751 - 8500 lbs. 8501-10,000 lbs. 10,001-14,000 lbs.

NMOG NOx NMOG NOx NMOG NOx NMOG NOx

LEV through

1997

50,000 0.238 0.7 0.293 1.1 0.345 1.3 0.450 2.0

1998-

1999

50,000 0.238 0.6 0.293 0.9 0.345 1.0 0.450 1.5

2000 50,000 -- 0.6 -- 0.9 -- 1.0 -- 1.5

2000 120,000 -- 0.8 -- 1.2 -- 1.3 -- 2.0

ULEV through

1999

50,000 0.128 0.6 0.156 0.9 0.184 1.0 0.240 1.5

2000 50,000 0.128 0.6 0.156 0.9 0.184 1.0 0.240 1.5

2000 120,000 0.160 0.8 0.195 1.2 0.230 1.3 0.300 2.0

2001-

2002

50,000 0.128 -- 0.156 -- 0.184 -- 0.240 --

2001-

2002

120,000 0.160 -- 0.195 -- 0.230 -- 0.300 --

SULEV through

2002

50,000 0.072

0.3 0.084 0.45 0.100 0.5 0.130 0.7

2002 120,000 0.100 0.4 0.117 0.6 0.138 0.65 0.180 1.0

In-use compliance with standards beyond 50,000 miles shall be waived through the 1999 model year

for LEVs and ULEVs and through the 2001 model year for SULEVs.

* Dashes mean that the standard in the section 3.j. table applies.

a. Reactivity Adjustment. For LEVs and ULEVs designed to operate on an available

fuel other than conventional gasoline, including fuel-flexible and dual-fuel vehicles when operating

on an available fuel other than gasoline, NMOG exhaust mass emission results shall be multiplied by

the applicable reactivity adjustment factor to determine compliance with intermediate in-use

compliance standards for NMOG. In addition to multiplying the exhaust NMOG mass emission

levels by the applicable reactivity adjustment factor, natural gas vehicles shall multiply the exhaust

methane mass emission results by the applicable methane reactivity adjustment factor and add that

value to the reactivity-adjusted NMOG value. For fuel-flexible and dual-fuel vehicles when

operating on gasoline, NMOG emission results shall not be multiplied by a reactivity adjustment

factor.

b. Gasoline Standards for Fuel-Flexible and Dual-Fuel Vehicles. For fuel-flexible

and dual-fuel MDVs from 0-14,000 lbs. TW, intermediate in-use compliance standards for NMOG

emissions at 50,000 miles, when the vehicle is operated on gasoline, shall be:

As Amended 8/5/99

3-26

Fuel-Flexible and Dual-Fuel MDVs

Intermediate In-Use Compliance Standards

Test Weight

(lbs.)

Vehicle Emission

Category

50,000

(g/mi)

0-3750 LEV 0.32

ULEV 0.188

3751-5750 LEV 0.41

ULEV 0.238

SULEV 0.128

5751-8500 LEV 0.49

ULEV 0.293

SULEV 0.156

8501-10,000 LEV 0.58

ULEV 0.345

SULEV 0.184

10,001-14,000 LEV 0.75

ULEV 0.450

SULEV 0.240

Intermediate in-use compliance standards shall to apply to LEVs and ULEVs through the 1999

model year and to SULEVs through the 2001 model year. Compliance with the standards beyond

50,000 miles shall be waived through the 1999 model year for LEVs and ULEVs and through the

2001 model year for SULEVs.

(10) Medium-Duty Vehicle Phase-In Requirements. Each manufacturer's MDV fleet shall be defined

as the total number of California certified MDVs from 0-14,000 lbs. TW produced and delivered for

sale in California.

a. Manufacturers of MDVs shall certify an equivalent percentage of their MDV fleet

according to the following phase-in schedule:

Model

Year

Vehicles Certified to Title 13 CCR Section

1960.1(h)(1) and(2)

(%)

Vehicles Certified to Title 13 CCR Section

1956.8(g) or (h)

(%)

Tier 1 LEV ULEV Tier 1 LEV ULEV

1998 73 25 2 100 0 0

1999 48 50 2 100 0 0

2000 23 75 2 100 0 0

c. The percentages shall be applied to the manufacturers' total production of

California-certified medium-duty vehicles delivered for sale in California.

As Amended 8/5/99

3-27

d. These requirements shall not apply to small volume manufacturers. Small volume

manufacturers shall comply with the requirements of note (16) below.

(11) For the purpose of calculating "Vehicle Equivalent Credits" (or "VECs"), vehicles which have no

tailpipe emissions but use fuel fired heaters and which are not certified as ZEVs shall be treated as

Type A Hybrid Electric Vehicle Ultra-Low-Emission Vehicles (or "Type A HEV ULEVs").

(12) Calculation of Vehicle Equivalent Credits. In 1992 through 2000 model years, manufacturers that

produce and deliver for sale in California MDVs in excess of the equivalent requirements for LEVs

and/or ULEVs certified to the exhaust emission standards set forth in Title 13, CCR, Sections

1960.1(h)(2) or 1956.8(h), shall receive "Vehicle-Equivalent Credits" (or "VECs") calculated in

accordance with the following equation, where the term "Produced" means produced and delivered

for sale in California:

{[(No. of LEVs Produced excluding HEVs) + (No. of "Type C HEV" LEVs Produced)] +

[(No. of "Type A HEV" LEVs Produced) x (1.2)] +

[(No of "Type B HEV" LEVs Produced) x (1.1)] -

(Equivalent No. of LEVs Required to be Produced)} +

{(1.4) x [(No. of ULEVs Produced excluding HEVs) + (No. of "Type C HEV" ULEVs

Produced)] +

[(1.7) x (No. of "Type A HEV" ULEVs Produced)] +

[(1.5) x (No. of "Type B HEV" ULEVs Produced)] -

[(1.4) x (Equivalent No. of ULEVs Required to be Produced)]} +

{[(1.7) x [(No. of SULEVs Produced excluding HEVs) + (No. of "Type C HEV" SULEVs

Produced)] +

[(No. of "Type A HEV" SULEVs Produced) x (1.7)] +

[(No. of "Type B HEV" SULEVs) x (1.5)] -

[(1.7) x [(Equivalent No. of SULEVs Required to be Produced)]} +

[(2.0) x (No. of ZEVs Certified and Produced as MDVs)].

a. Manufacturers that fail to produce and deliver for sale in California the equivalent

quantity of MDVs certified to LEV and/or ULEV exhaust emission standards, shall receive

"Vehicle-Equivalent Debits" (or "VEDs") equal to the amount of negative VECs determined by the

aforementioned equation.

b. Manufacturers shall equalize emission debits within one model year by earning

VECs in an amount equal to their previous model-year's total of VEDs, or by submitting a

commensurate amount of VECs to the Executive Officer that were earned previously or acquired

from another manufacturer. Any manufacturer which fails to equalize emission debits within the

specified time period shall be subject to the Health and Safety Code civil penalty applicable to a

manufacturer which sells a new motor vehicle that does not meet the applicable emission standards

adopted by the state board. The cause of action shall be deemed to accrue when the emission debits

are not equalized by the end of the specified time period. For the purposes of Health and Safety

Code section 43211, the number of vehicles not meeting the state board's emission standards shall be

equal to the amount of VEDs incurred.

c. The VECs earned in any given model year shall retain full value through the

subsequent model year.

d. The value of any VECs not used to equalize the previous model-year's debit, shall

be discounted by 50% at the beginning of second model year after being earned, discounted to 25%

of its original value if not used by the beginning of the third model year after being earned, and will

have no value if not used by the beginning of the fourth model year after being earned.

e. Any VECs earned prior to the 1998 model year shall be treated as earned in the

1998 model year and discounted in accordance with the schedule specified in note (12)(d).

As Amended 8/5/99

3-28

f. Only ZEVs certified as MDVs shall be included in the calculation of VECs.

g. In order to verify the status of a manufacturer's compliance with the phase-in

requirements of this section and in order to confirm the accrual of VECs or VEDs, each manufacturer

shall submit an annual report to the Executive Officer which sets forth the production data used to

establish compliance by no later than March 1 of the calendar year following the close of the model

year.

(13) 50

F Requirement. Manufacturers shall demonstrate compliance with the above standards for

NMOG, carbon monoxide, and oxides of nitrogen at 50 F, according to the procedure specified in

Section 11k of these test procedures. Hybrid electric, natural gas and diesel-fueled vehicles are

exempt from 50 F test requirements.

(14) In-use compliance testing shall be limited to vehicles with fewer than 90,000 miles.

(15) HEV Requirements. Deterioration factors for hybrid electric vehicles shall be based on the

emissions and mileage accumulation of the auxiliary power unit. For certification purposes only,

Type A hybrid electric vehicles shall demonstrate compliance with 50,000 mile emission standards

(using 50,000 mile deterioration factors), and demonstrating compliance with 120,000 mile emission

standards shall not be required. For certification purposes only, Type B hybrid electric vehicles shall

demonstrate compliance with 50,000 mile emission standards (using 50,000 mile deterioration

factors) and 120,000 mile emission standards (using 90,000 mile deterioration factors). For

certification purposes only, Type C hybrid electric vehicles shall demonstrate compliance with

50,000 mile emission standards (using 50,000 mile deterioration factors) and 120,000 mile emission

standards (using 120,000 mile deterioration factors).

(16) Requirements for Small Volume Manufacturers. As used in this subsection, the term "small

volume manufacturer" shall mean any vehicle manufacturer with California sales less than or equal to

3000 new PCs, LDTs, and MDVs per model year based on the average number of vehicles sold by

the manufacturer each model year from 1992 to 1994, except as otherwise noted below. For

manufacturers certifying for the first time in California, model-year sales shall be based on projected

California sales.

a. Prior to the model year 2001, small volume manufacturers shall not be required to

certify, produce, or deliver LEVs and ULEVs for sale in California.

b. If a manufacturer's average California sales exceeds 3000 units of new PCs, LDTs,

and MDVs based on the average number of vehicles sold for any three consecutive model years, the

manufacturer shall no longer be treated as a small volume manufacturer and shall comply with the

LEV and ULEV requirements applicable for larger manufacturers as specified in this subsection

beginning with the fourth model year after the last of the three consecutive model years.

c. If a manufacturer's average California sales falls below 3000 units of new PCs,

LDTs, and MDVs based on the average number of vehicles sold for any three consecutive model

years, the manufacturer shall be treated as a small volume manufacturer and shall be subject to

requirements for small volume manufacturers as specified in this subsection beginning with the next

model year.

As Amended 8/5/99

3-29

k. The cold temperature exhaust carbon monoxide emission levels from new 1996-

2000 model-year passenger cars, light-duty trucks, and medium-duty vehicles shall not exceed:

1996-2000 MODEL-YEAR COLD TEMPERATURE

CARBON MONOXIDE EXHAUST EMISSIONS STANDARDS FOR PASSENGER

CARS, LIGHT-DUTY TRUCKS, AND MEDIUM-DUTY VEHICLES

1,2

(grams per mile)

Loaded Durability

Vehicle Vehicle

Vehicle Weight Basis Carbon

Type (lbs.) (mi) Monoxide

Passenger Car All 50,000 10.0

Light-Duty Truck 0-3750 50,000 10.0

Light-Duty Truck 3751-5750 50,000 12.5

Medium-Duty Vehicle 0-3750 50,000 10.0

Medium-Duty Vehicle 3751-8500

50,000 12.5

(1) These standards are applicable to vehicles tested in accordance with 40 CFR Part 86

o o

Subpart C, at a nominal temperature of 20 F (-7 C).

(2) Natural gas vehicles, diesel-fueled vehicles, hybrid electric vehicles, and zero-emission

vehicles are exempt from these standards.

(3) Medium-duty vehicles with a gross vehicle weight rating greater than 8,500 lbs. are

exempt from this standard.

As Amended 8/5/99

3-30

4. Initial Requirements

a. Application for Certification

In paragraph 86.088-21, 86.090-21, 86.091-21, 86.094-21 and 86.096-21,

86.098-21, and 86.000-21:

1. Amend subparagraph (b)(1)(i) to read:

(i) Identification and description of the vehicles (or engines) covered by the

application and a description (including a list and part numbers of all major

emission control system parts and fuel system components) of their engine

(vehicles only) emission control system and fuel system components, including if

applicable, the turbocharger and intercooler. This shall include a detailed

description of each auxiliary emission control device (AECD) to be installed in or

on any certification test vehicle (or certification test engine).

2. Amend subparagraph (b)(2) to read:

(2) For 1992 and subsequent model-year TLEVs, LEVs, and ULEVs

not certified exclusively on gasoline, projected California sales data and fuel

economy data 19 months prior to January 1 of the calendar year with the same

numerical designation as the model year for which the vehicles are certified, and

projected California sales data for all vehicles, regardless of operating fuel or

vehicle emission category, sufficient to enable the Executive Officer to select a test

fleet representative of the vehicles (or engines) for which certification is requested

at the time of certification.

3. Add subparagraph (g) to to paragraph 86.088-21, 86.090-21, and 86.091-

21 and subparagraph (k) to paragraph 86.094-21, and amend subparagraph

(k) in paragraph 86.096-21, 86.098-21, and 86.000-21 to read:

(1) For ZEVs and hybrid electric vehicles, the certification application

shall include the following:

(i) Identification and description of the vehicle(s) covered by the

application.

(ii) Identification of the vehicle weight category to which the vehicle is

certifying: PC, LDT 0-3750 lbs. LVW, LDT 3751-5750 lbs. LVW, or

MDV (state test weight range), and the curb weight and gross vehicle

weight rating of the vehicle.

(iii) Identification and description of the propulsion system for the

vehicle.

As Amended 8/5/99

4-1

(iv) Identification and description of the climate control system used on

the vehicle.

(v) Projected number of vehicles produced and delivered for sale in

California, and projected California sales.

(vi) For electric and hybrid electric vehicles, identification of the energy

usage in kilowatt-hours per mile from the point when electricity is

introduced from the electrical outlet and the operating range in miles of the

vehicle when tested in accordance with the All-Electric Range Test (see

section 9.f. of these test procedures).

(vii) If the vehicle is equipped with a fuel fired heater, a description of

the control system logic of the fuel fired heater, including an evaluation of

the conditions under which the fuel fired heater can be operated and an

evaluation of the possible operational modes and conditions under which

evaporative emissions can exist. Vehicles which utilize fuel fired heaters

which can be operated at ambient temperatures above 40

F or which

cannot be demonstrated to have zero evaporative emissions under any and

all possible operation modes and conditions shall not be certified as ZEVs.

For ZEVs and HEVs which use fuel fired heaters, the manufacturer shall

provide the exhaust emissions value per mile produced by the auxiliary fuel

fired heater. This shall be accomplished by determining heater emissions in

grams per minute when operating at a maximum heating capacity for a

period of 20 minutes, and multiplying that number by 3.6 minutes per mile.

At the time of certification, manufacturers shall submit their test plan which

describes the procedure used to determine the mass emissions of the fuel

fired heater.

(viii) All information necessary for proper and safe operation of the

vehicle, including information on the safe handling of the battery system,

emergency procedures to follow in the event of battery leakage or other

malfunctions that may affect the safety of the vehicle operator or laboratory

personnel, method for determining battery state-of-charge, battery charging

capacity and recharging procedures, and any other relevant information as

determined by the Executive Officer.

In paragraph 86.088-21 and 86.090-21:

4. Amend subparagraph (b)(4)(iii)(C)(1) and (C)(2) to read:

(1) A statement of maintenance and procedures consistent with the

restrictions imposed under subparagraph 86.085-25(a)(1), necessary to

assure that the vehicles (or engines) covered by a certificate of conformity

in operation in normal use to conform to the regulations, and a description

As Amended 8/5/99

4-2

of the program for training of personnel for such maintenance, and the

equipment required.

(2) A statement that the vehicles sold comply with the California

high-altitude emission requirements as specified in Section 11.b. (High

Altitude Requirements) in these procedures.

In paragraph 86.096-21, 86-098-21, and 86.000-21:

5. Delete subparagraph (l).

b. Required Data

In paragraph 86.085-23, 86.087-23, 86.088-23, 86.091-23, 86.094-23, 86.095-23,

86.096-23, 86.098-23, and 86.000-23:

1. Amend (c)(1) by adding the following paragraph which reads:

For all TLEVs, LEVs, and ULEVs certifying on a fuel other than

conventional gasoline, manufacturers shall multiply the NMOG exhaust

certification level for each emission-data vehicle by the appropriate reactivity

adjustment factor listed in Section 13.a. of these test procedures or established by

the Executive Officer pursuant to Appendix VIII of these test procedures to

demonstrate compliance with the applicable NMOG emission standard. For all

TLEVs, LEVs, and ULEVs certifying on natural gas, manufacturers shall multiply

the NMOG exhaust certification level for each emission-data vehicle by the

appropriate reactivity adjustment factor listed in Section 13.a. of these test

procedures or established by the Executive Officer pursuant to Appendix VIII of

these test procedures and add that value to the product of the methane exhaust

certification level for each emission-data vehicle and the appropriate methane

reactivity adjustment factor listed in Section 13.a. of these test procedures or

established by the Executive Officer pursuant to Appendix VIII of these test

procedures to demonstrate compliance with the applicable NMOG emission

standard. Manufacturers requesting to certify to existing standards utilizing an

adjustment factor unique to its vehicle/fuel system must follow the data

requirements described in Appendix VIII of these test procedures. A separate

formaldehyde exhaust certification level shall also be provided for demonstrating

compliance with emission standards for formaldehyde.

In paragraph 86.000-23:

2. Amend subparagraph (l) by substituting the following for the initial

paragraph:

(l) Additionally, manufacturers certifying vehicles shall submit for each

model year 2001 through 2004 passenger car and light-duty truck engine family,

As Amended 8/5/99

4-3

and for each model year 2003 through 2005 medium-duty vehicle engine family,

the information listed in paragraphs (l)(1) and (2). If applicable, manufacturers

shall also submit “Alternative or Equivalent Phase-in Schedules” before or during

calendar year 2001 for passenger cars and light-duty trucks and calendar year 2003

for medium-duty vehicles.

c. Test Vehicles and Test Engines; Assigned Deterioration Factors (DFs)

In paragraphs 86.085-24, 86.090-24, 86.092-24, 86.094.24, 86.095-24, 86.096-

24, 86.098-24, and 86.000-24:

1. Amend subparagraph (a)(1) by adding the following additional statement:

(a)(1) The vehicles or engines covered by an application for certification

will be divided into groupings of engines which are expected to have similar

emission characteristics throughout their useful life. Each group of engines with

similar emission characteristics shall be defined as a separate engine family. For

1995 and subsequent model-year vehicles or engines, all engines classified in the

same engine family shall be certified to identical exhaust emission standards.

2. Delete subparagraph (b) (Emission-data vehicle selection provisions)

REPLACE WITH:

(b) Emission-data vehicles shall be selected according to the provisions of

Appendix II. Selection shall be based on highest sales volume and will require only

two emission-data vehicles for certification testing per engine family. For vehicles

certified to the SFTP exhaust emission standards, if air conditioning is projected to

be available on any vehicles within the engine family, the selection of engine codes

will be limited to selections which have air conditioning available and would

require that any vehicle selected under this Section has air conditioning installed

and operational. (For fifty-state families, the reference in the federal procedures to

configuration or sales shall mean California configurations and sales rather than

total family configurations and sales.) The Executive Officer will accept data from

California (or fifty-state) configuration vehicles or from federal vehicles which

meet the requirements of subparagraph 4.c.5. Federal vehicles may be

reconfigured to California versions and tested to show compliance with California

emission standards. The Executive Officer will also allow the manufacturer to

reconfigure California vehicles.

3. Delete subparagraph (e)(1) (Reduced number of test vehicles)

REPLACE WITH:

(1) Any manufacturer whose projected California annual sales for the

model year in which certification is sought is less than a combined total of 3,000

As Amended 8/5/99

4-4

passenger cars, light-duty trucks, medium-duty vehicles, and heavy-duty engines

may request a reduction in the number of test vehicles determined in accordance

with the foregoing provisions of this paragraph. The Executive Officer may agree

to such lesser numbers as he or she determines would meet the objectives of this

procedure.

4. Delete subparagraph (e)(2) (Assigned deterioration factors)

REPLACE WITH:

(2)(i) Any manufacturer may request to certify engine families using

assigned DFs for a combined total of 3,000 projected annual California sales of

passenger cars, light-duty trucks, medium-duty vehicles, and heavy-duty engines

per manufacturer regardless of total sales.

(2)(ii) Assigned DFs shall be used only where specific mileage

accumulation data do not exist (i.e., if a vehicle manufacturer uses an

engine/system combination where DFs derived from exhaust emission testing exist,

then the assigned factors cannot be used).

Assigned DFs shall be used in lieu of data from durability vehicle(s) only when a

manufacturer demonstrates that it has control over design specifications, can

provide development data, has in-house testing capabilities including accelerated

aging of components/systems, and has evaluation criteria to ensure emission

control system (ECS) durability for the vehicle's useful life. The applying

manufacturer must demonstrate engine durability and that the emission control

system(s) developed or adapted for the particular engine will be durable and

comply with the applicable emission standards for the engine's or vehicle's useful

life. In evaluating any information provided, all relevant test data and design

factors shall be considered, including but not limited to: vehicle application, engine

design, catalyst loading and volume, space velocity in the catalyst, engine exhaust

gas concentrations and catalyst temperatures for various operating modes, and the

durability of any emission control system components which may have been used

in other vehicle applications. The assigned DFs shall be applied only to entire

families.

If emission control parts from other certified vehicles are utilized, then parameter

comparisons of the above data must also be provided including part numbers

where applicable. Emission control durability may include special in-house

specifications.

(2)(iii) The criteria for evaluating assigned DFs for evaporative families are

the same as those for exhaust families. However, in determining evaporative

family DFs the "California Evaporative Emission Standards and Test Procedures

for 1978 and Subsequent Model Motor Vehicles" require that an evaporative

family DF be determined by averaging DFs obtained from durability vehicle testing

As Amended 8/5/99

4-5

and from bench testing. Therefore, if a manufacturer meets the criteria as specified

above in (e)(2)(i) and (e)(2)(ii), the Executive Officer may grant assigned DFs for

either (or both) the durability vehicle DF or the bench DF.

Assigned DFs for bench test requirements do not depend upon the 3,000 maximum

sales limit. The assigned bench DF is applicable only to evaporative emission

control systems which are similar to those used by the manufacturer for 1980 or

later model-year vehicles and where an evaporative vehicle DF was determined. In

evaluating a request for an assigned bench DF, all relevant information shall be

considered, including but not limited to: fuel tank capacity, fuel tank temperatures,

carburetor bowl "capacity", underhood temperatures, canister capacity and

location, and any other comparisons to the certified application.

5. Amend subparagraph (f) and (h)(1)(v) by adding the following additional

requirement which reads:

The durability or emission data submitted may be from vehicles previously certified

by ARB. For 1993 through 1996 model-year passenger cars and light-duty trucks

and 1995 through 1997 model-year medium-duty vehicles, the manufacturer shall

submit durability data from only California (or fifty-state) configuration vehicles

unless the durability data was generated from a vehicle certified by EPA or ARB

prior to the 1993 model year (1995 for medium-duty vehicles). For 1997 (2001

for medium-duty vehicles) and subsequent model-year vehicles, durability data

shall be submitted from only California (or fifty-state) configuration vehicles. For

1993 and (1995 for medium-duty vehicles) subsequent model-year vehicles, the

Executive Officer shall permit the use of federal durability data vehicles if he or she

determines that the federal data will adequately represent the durability

characteristics of the California configuration. This determination shall be based

upon similarity of catalyst location and configuration; similarity of fuel metering

system; similarity of major features of emission control system logic and design;

and similarity of any other features determined by the Executive Officer to be likely

to affect durability. If data from a federal durability data vehicle is used, the

requirements of subparagraph 6.b.5. (durability vehicles must meet emission

standards) will refer to the federal emissions standards in effect for the model year

for which the durability data was generated.

For the 1998 through 2000 model years, the Executive Officer shall allow

the use of durability data for medium-duty vehicles certifying to the LEV standards

as set forth in section 3.j. of these test procedures submitted from California only,

federal, or fifty-state durability vehicles which line cross applicable NOx standards.

This provision shall also be applicable to durability data generated using a federal

or California alternate durability program. Medium-duty vehicles certifying to the

optional heavy-duty engine standards as set forth in Title 13, CCR Section

1956.8(h) shall not be eligible for this NOx line-crossing exemption.

As Amended 8/5/99

4-6

d. Compliance with the Inspection and Maintenance Program

All 1993 and subsequent model-year emission-data vehicles shall be required to be

tail-pipe tested at 4,000 miles and demonstrate compliance with the California

Inspection and Maintenance emission standards in place at the time of certification

as specified in the "Mandatory Exhaust Emissions Inspection Standards and Test

Procedures", Title 16, California Code of Regulations, Section 3340.42. Test

vehicles shall undergo preconditioning procedures prior to the tail-pipe test which

consist of idle conditions for a minimum period of ten minutes after the thermostat

is open. Preconditioning and test procedures shall be conducted at an ambient

temperature from 68

to 86

F. The manufacturer shall, in accordance with good

engineering practice, attest that such test vehicles will meet the requirements of

this section when preconditioned and tested at ambient temperatures from 35

As Amended 8/5/99

4-7

5. Maintenance Requirements

a. Maintenance

Delete paragraph 86.090-25.

Delete paragraph 86.088-25.

Delete paragraph 86.087-25.

In paragraph 86.085-25:

1. Amend the title and first sentence of subparagraph (a) to read:

(a) Light-duty vehicles. Paragraph (a) of this section applies to passenger

cars, light-duty trucks, and medium-duty vehicles.

2. Amend subparagraph (a)(1) to read:

(1) Scheduled maintenance on the engine, emission control system, and

fuel system of durability vehicles shall, unless otherwise provided pursuant to

paragraph (a)(5)(iii), be restricted as set forth in the following provisions. If a

manufacturer must revise the maintenance schedule, prior approval by the

Executive Officer is required. Unscheduled maintenance must not render a

durability vehicle nonrepresentative of the production vehicles. The unscheduled

maintenance must not be likely to be required in the normal use of the vehicle.

Unauthorized or unjustifiable unscheduled maintenance may be cause for

disqualification of a durability vehicle.

Manufacturers must submit durability maintenance logs to the Executive Officer.

The maintenance logs shall include the mileage where maintenance occurred, the

nature of the maintenance, and the name and part numbers of all fuel system and

emission control parts involved with the maintenance. Manufacturers of series

hybrid electric vehicles and parallel hybrid electric vehicles shall be required to

incorporate into the vehicles a separate odometer or other device subject to the

approval of the Executive Officer which can accurately gauge the mileage

accumulation on the engines which are used in these vehicles.

(i)(A) For Otto-cycle vehicles and hybrid electric vehicles which use Otto-cycle

engines, maintenance shall be restricted to the inspection, replacement, cleaning,

adjustment, and/or service of the following items at intervals no more frequent

than indicated:

These requirements are for vehicles certified to the primary 50,000 mile and 100,000 or 120,000 mile

standards. Requirements for the vehicles certified to the optional 100,000 mile standards are found in section

10 (Optional 100,000 Mile Certification Procedure) of these procedures.

As Amended 8/5/99

5-1

(1) Drive belts on engine accessories (tension adjustment only); (30,000

miles of engine operation).

(2) Valve lash (15,000 miles of engine operation).

(3) Spark plugs (30,000 miles of engine operation).

(4) Air filter (30,000 miles of engine operation).

(5) Exhaust gas sensor (30,000 miles of engine operation). Provided that:

(a) the manufacturer shall equip the vehicle with a maintenance

indicator consisting of a light or flag, which shall be preset to activate

automatically by illuminating in the case of a light or by covering the odometer in

the case of a flag the first time the minimum maintenance interval established

during certification testing is reached and which shall remain activated until reset.

After resetting, the maintenance indicator shall activate automatically when the

minimum maintenance interval, when added to the vehicle mileage at the time of

resetting, is again reached and shall again remain activated until reset. When the

maintenance indicator consists of a light, it shall also activate automatically in the

engine-run key position before engine cranking to indicate that it is functioning.

The maintenance indicator shall be located in the instrument panel and shall, when

activated, display the words "oxygen sensor" or may display such other words

determined by the Executive Officer to be likely to cause the vehicle owner to seek

oxygen sensor replacement. The maintenance indicator shall be separate from the

malfunction indicator light required by Section 1968, Title 13, California Code of

Regulations;

(b) the manufacturer shall provide free replacement of the oxygen

sensor, including both parts and labor, and shall reset the maintenance indicator

without any charge, the first time the maintenance interval established during

certification testing is reached for vehicles certified with scheduled sensor

maintenance before 50,000 miles. If the oxygen sensor is replaced pursuant to the

warranty provisions of Section 2037, Title 13, California Code of Regulations,

before the first maintenance interval is reached, the manufacturer shall also replace

the oxygen sensor and reset the maintenance indicator at the mileage point

determined by adding the maintenance interval to the vehicle's mileage at the time

of the warranty replacement. If the calculated mileage point for a second oxygen

sensor replacement would exceed 50,000 miles, no free second replacement shall

be required;

instructions required by section 5.b. of these procedures shall provide instructions

for the resetting of the maintenance indicator, and shall specify that the

maintenance indicator shall be reset each time the oxygen sensor is replaced; and

(d) Notwithstanding the provisions of Section 2037(c), Title 13,

California Code of Regulations; the oxygen sensor, including any replacement

required pursuant to this section, shall be warranted for the applicable warranty

period of the vehicle or engine in accordance with Section 2037(a), Title 13,

California Code of Regulations. If such oxygen sensor fails during this period, it

shall be replaced by the manufacturer in accordance with Section 2037(d), Title

13, California Code of Regulations.

As Amended 8/5/99

5-2

(6) Choke (cleaning or lubrication only); (30,000 miles of engine

operation).

(7) Positive crankcase ventilation valve (50,000 miles of engine operation).

(8) Ignition wires (50,000 miles of engine operation).

(9) In addition, adjustment of the engine idle speed (curb idle and fast idle),

valve lash, and engine bolt torque may be performed once during the first 5,000

miles of scheduled driving, provided the manufacturer makes a satisfactory

showing that the maintenance will be performed on vehicles in use. For hybrid

electric vehicles, these adjustments may only be performed once during the first

5,000 miles of engine operation.

(10) Hybrid electric vehicle battery system (manufacturer's established

performance limits). Provided that:

(a) The manufacturer shall equip the vehicle with a maintenance indicator

consisting of a light which shall activate automatically by illuminating the first time

the minimum performance level is observed for all battery system components.

Possible battery system components requiring monitoring are:

i. battery water level

ii. temperature control

iii. pressure control

iv. other parameters critical for determining battery condition

(b) The manufacturer shall equip the vehicle with a useful life indicator for

the battery system consisting of a light which shall illuminate the first time the

battery system is unable to achieve an all-electric operating range (starting from a

full state-of-charge) which is at least 75% of the range determined for the vehicle

in the All-Electric Range-Urban (see section 9.f.(2)(a) of these test procedures)

and submitted in the certification application.

(i)(B) For diesel vehicles and hybrid electric vehicles which use diesel engines,

maintenance shall be restricted to the following items at intervals no more

frequently than every 12,500 miles of engine operation, provided that no

maintenance may be performed within 5,000 miles of the final test point:

(1) Adjust low idle speed.

(2) Adjust valve lash if required.

(3) Adjust injector timing.

(4) Adjust governor.

(5) Clean and service injector tips.

(6) Adjust drive belt tension on engine accessories.

(7) Check engine bolt torque and tighten as required.

(8) Hybrid electric vehicle battery system. Manufacturers shall maintain

the battery system according to the requirements in section 5.a.(2)(i)(A)(10) of

these test procedures.

(ii) Change of engine and transmission oil, change or service of oil filter and, for

diesel vehicles only, change or service of fuel filter and air filter, will be allowed at

the mileage intervals specified in the manufacturer's maintenance instructions.

As Amended 8/5/99

5-3

(iii) Maintenance shall be conducted in a manner consistent with service

instructions and specifications provided by the manufacturer for use by customer

service personnel.

3. Delete subparagraph (a)(3) (Service of exhaust gas recirculation system).

4. Delete subparagraph (a)(4) (Service of catalytic converter).

5. Amend subparagraph (a)(5), by adding a new subparagraph (iv) to read:

(iv) When a part has to be replaced while conducting unscheduled

maintenance, a similarly aged part shall be used for those parts that affect

emissions, unless it is impractical and unnecessary to age a part and prior

approval has been obtained from the Executive Officer for use of the part

without aging. In either case, an engineering report on the nature of the

problem with the probable cause and corrective action shall be supplied to

the Executive Officer.

6. Add subparagraph (a)(13):

(13) When air conditioning SFTP exhaust emission tests are required, the

manufacturer must document that the vehicle’s air conditioning system is

operating properly and that system parameters are within operating design

specifications prior to testing. Required air conditioning system

maintenance is performed as unscheduled maintenance that does not

require the Executive Officer’s approval.

7. Delete subparagraph (b) (Maintenance of light-duty trucks and heavy-duty

engines).

b. Maintenance Instructions

Delete paragraph 86.087-38.

In paragraph 86.085-38:

1. Amend subparagraph (a) to read:

(a) The manufacturer shall furnish or cause to be furnished to the purchaser

of each new motor vehicle subject to the standards prescribed in Section 3 of these

procedures, written instructions for the maintenance and use of the vehicle by the

purchaser as may be reasonable and necessary to assure the proper functioning of

emission control systems in normal use. Such instructions shall be consistent with

and not require maintenance in excess of the restrictions imposed under

subparagraph 86.085-25(a)(1) as amended above, except that the instructions may,

subject to approval by the Executive Officer, require additional maintenance for

vehicles operated under extreme conditions. In addition, subject to approval by

As Amended 8/5/99

5-4

the Executive Officer, the instructions may require inspections necessary to insure

safe operation of the vehicle in use.

In addition to any maintenance which may be required pursuant to the preceding

paragraph, the instructions may also recommend such inspections, maintenance,

and repair as may be reasonable and necessary for the proper functioning of the

vehicle and its emission control systems. If the instructions recommend

maintenance in addition to that which may be required pursuant to the preceding

paragraph, they shall distinguish clearly between required and recommended

maintenance.

2. Amend both subparagraphs (c)(1) and (d)(1) to read:

(1) Such instructions shall specify the performance of all scheduled

maintenance performed by the manufacturer under subparagraph 86.085-25(a)(1).

c. Submission of Maintenance Instructions

Amend subparagraph 86.079-39(a) to read:

(a) The manufacturer shall provide to the Executive Officer, no later than

the time of the submission required by paragraph 86.088-23, 86.091-23, or

86.094-23, a copy of the maintenance instructions which the manufacturer

proposes to supply to the ultimate purchaser in accordance with subparagraph

86.085-38(a). The Executive Officer will review such instructions to determine

whether they are consistent with California requirements, and to determine

whether the instructions for required maintenance are consistent with the

restrictions imposed under subparagraph 86.085-25(a)(1). The Executive Officer

will notify the manufacturer of his or her determinations.

As Amended 8/5/99

5-5

6. Demonstrating Compliance

a. Mileage and Service Accumulation; Emission Measurements

In paragraphs 86.084-26 and 86.090-26:

1. Amend subparagraph (a)(1) to read:

(a)(1) Paragraph (a) of this section applies to light-duty vehicles, except ZEVs

which shall be exempt from all mileage and service accumulation, durability-data

vehicle, and emission-data vehicle testing requirements.

2. Amend (a)(2) to read:

The procedure for mileage accumulation shall be the Durability Driving Schedule

as specified in Appendix IV to Part 86 of the Code of Federal Regulations. A

modified procedure may also be used if approved in advance by the Executive

Officer. All passenger cars, light-duty trucks, pre-1995 model year medium-duty

vehicles, and 1995 model- year vehicles certified to 1994 model-year emission

standards shall accumulate mileage at a measured curb weight which is within 100

pounds of the estimated curb weight. All 1995 and subsequent model-year

medium-duty vehicles (except those certified to 1994 model-year emission

standards) and all 1992 and subsequent medium-duty LEVs, ULEVs, and

SULEVs shall accumulate mileage at a loaded weight that is within 100 pounds of

the average of the vehicle's curb weight and gross vehicle weight. If the vehicle

weight is within 100 pounds of being included in the next higher inertia weight

class, the manufacturer may elect to conduct the respective emission tests at the

higher weight. All mileage accumulation of hybrid electric vehicles shall be

conducted with the battery pack at the manufacturer's indicated lowest

state-of-charge at the beginning of the test cycle. At no time throughout mileage

accumulation shall the battery pack be charged using any off-board charging

source.

3. Amend (a)(3)(i) and (a)(3)(ii) (Emission-data vehicle mileage accumulation) by

adding the following additional requirement which reads:

For vehicles certified to the SFTP exhaust emission standards, complete exhaust

emission tests will include both the FTP and SFTP tests. The Executive Officer

will accept the manufacturer's determination of the mileage at which the

engine-system combination is stabilized for emission data testing if (prior to

testing) a manufacturer determines that the interval chosen yields emissions

performance which is stable and representative of design intent. Sufficient mileage

should be accumulated to reduce the possible effects of any emissions variability

that is the result of insufficient vehicle operation. Of primary importance in

making this determination is the behavior of the catalyst, EGR valve, trap oxidizer

or any other part of the ECS which may have non-linear aging characteristics. In

As Amended 8/5/99

6-1

the alternative, the manufacturer may elect to accumulate 4,000 mile ± 250 mile on

each test vehicle within an engine family without making a determination.

4. Amend (a)(4)(i) and (a)(4)(ii) (Durability-data vehicle mileage accumulation) by

adding the following new subparagraphs (A), (B), (C), (D) and (E) to read:

(A) For Otto-cycle and diesel vehicles and battery assisted combustion engine

vehicles which use Otto-cycle or diesel engines:

(1) Passenger cars, light-duty trucks and medium-duty vehicles certifying

to exhaust emissions standards only on a 50,000 mile durability basis and

selected by the Executive Officer or elected by the manufacturer under

86.085-24(c)(1), 86.090-24(c)(1), 86.092-24(c)(1), 86.094-24(c)(1), or

86.095-24(c)(1) shall be driven, with all emission control systems installed

and operating, for 50,000 miles or such lesser distance as the Executive

Officer may agree to as meeting the objective of this procedure.

(2) Prior to initiation of mileage accumulation in a durability-data vehicle,

manufacturers must establish the mileage test interval for durability-data

vehicle testing of the engine family. Once testing has begun on a

durability-data vehicle, the durability test interval for that family may not be

changed. At a minimum, multiple tests must be performed at 5,000 miles,

50,000 miles, and the final mileage point as long as they meet the

requirements of Appendix III. The Executive Officer will accept durability

test interval schedules determined by the manufacturer. The testing must

provide a DF confidence level equal to or better than the confidence level

using the former fixed mileage test and scheduled maintenance intervals.

The procedure for making this determination is also given in Appendix III.

The mileage intervals between test points must be approximately of equal

length. The ± 250 mile test point tolerance and the requirement that tests

be conducted before and after scheduled maintenance is still mandatory.

Emission control systems for Otto-cycle engines which have step function

changes designed into the control system must use the 5,000 mile test

interval schedule.

(3) Testing before and after scheduled (or unscheduled) maintenance

points must be conducted, and these data are to be included in the

deterioration factor calculation.

The number of tests before and after scheduled maintenance and the

mileage intervals between test points should be approximately equal.

Durability test interval schedules with multiple testing at test points within

Testing before unscheduled maintenance may be omitted with the prior consent of the Executive Officer when

testing would be dangerous to a vehicle or an operator.

As Amended 8/5/99

6-2

10,000 miles of or at the 50,000 mile and the final mileage test point must

be submitted for approval. Multiple testing at maintenance mileage tests

points within 10,000 miles of the 50,000 mile and the final mileage test

points may be approved if it can be demonstrated by previously generated

data that the emission effects of the maintenance are insignificant.

(4) For engine families which are to be certified to the full useful life

emission standards, each exhaust emission durability-data vehicle shall be

driven with all emission control systems installed and operating, for the full

useful life or such lesser distance as the Executive Officer may agree to as

meeting the objective of this procedure. Durability tests shall be at every

5,000 miles, from 5,000 miles to the full useful life, however, the above

procedures may be used to determine alternate test intervals subject to the

following.

For engine families which are to be certified to the full useful life emission

standards, durability vehicles may accumulate less than the full useful life if

the manufacturer submits other data or information sufficient to

demonstrate that the vehicle is capable of meeting the applicable emission

standards for the full useful life. At a minimum, 75% of the full useful life

shall be accumulated. For the purpose of conducting mileage accumulation

on light-duty hybrid electric vehicles, the full useful life of the auxiliary

power unit shall be defined as 50,000 miles for a Type A hybrid electric

vehicle, 75,000 miles for a Type B hybrid electric vehicle, and 100,000

miles for a Type C hybrid electric vehicle. For medium-duty hybrid electric

vehicles, the full useful life of the auxiliary power unit shall be defined as

60,000 miles for a Type A hybrid electric vehicle, 90,000 miles for a Type

B hybrid electric vehicle, and 120,000 miles for a Type C hybrid electric

vehicle. Alternative durability plans may also be used if the manufacturer

provides a demonstration that the alternative plan provides equal or greater

confidence that the vehicles will comply in-use with the emission standards.

The demonstration shall include, but not be limited to, bench test data and

engineering data. A manufacturer's in-use emission data may also be used.

All alternative durability plans, including the use of durability vehicles

which accumulate less than the full useful life are subject to approval in

advance by the Executive Officer.

(B) For diesel vehicles equipped with periodically regenerating trap oxidizer

systems, at least four regeneration emission tests (see 86.106 through 86.145) shall

be made.

With the advance approval of the Executive Officer, the manufacturer

may install (1) a manual override switch capable of preventing (i.e., delaying until

the switch is turned off) the start of the regeneration process and (2) a light which

indicates when the system would initiate regeneration if it had no override switch.

Included in Appendix V are the pollutant mass emission calculation procedures for vehicles equipped with

periodically regenerating trap oxidizer systems.

As Amended 8/5/99

6-3

Upon activation of the override switch the vehicle will be operated on a

dynamometer to precondition it for the regeneration emission test in accordance

with section 86.132-82 or 86.132-90 and section 9.b. of these procedures. The

Urban Dynamometer Driving Schedule (UDDS) which is in progress at the time

when the light comes on shall be completed and the vehicle shall proceed to the

prescribed soak period followed by testing. With the advance approval of the

Executive Officer, the manual override switch will be turned off at some

predetermined point in the testing sequence permitting the regeneration process to

proceed without further manual interaction. The mileage intervals between test

points shall be approximately equal. The first regeneration emission test shall be

made at the 5,000 mile point. The regeneration emission tests must provide a

deterioration factor confidence level equal to or better than the confidence level

achieved by performing regeneration emission tests at the following mileage point:

5,000; 20,000; 35,000; and 50,000. The procedure for making this determination

is shown in Appendix IV.

Evaporative Emission Standards and Test Procedures for 1978 and Subsequent

Model Motor Vehicles," as incorporated in Title 13, California Code of

Regulations, Section 1976, specify evaporative durability testing at 5,000, 10,000,

20,000, 30,000, 40,000 and 50,000 mile test points. These requirements are also

applicable to hybrid electric vehicles. With the exception of fuel-flexible vehicles,

a manufacturer may conduct evaporative testing at test points used for exhaust

emission durability testing provided that the same deterioration confidence level

for the evaporative emission DF determination is retained (see Appendix III).

(D) For 1993 and 1994 fuel-flexible vehicles which are not certified to TLEV,

LEV, or ULEV standards, the test schedule must include exhaust emission tests at

5,000, 10,000, and every 10,000 miles thereafter to the final mileage point using

M85 or E85 for methanol and ethanol fuel-flexible vehicles, respectively. Exhaust

emission tests shall also be conducted at 5,000 miles, 50,000 miles, and the final

mileage point with certification gasoline. For all 1995 and subsequent fuel-flexible

vehicles and all 1992 and subsequent fuel-flexible vehicles certifying to TLEV,

LEV, ULEV, or SULEV standards, the test schedule shall include exhaust

emission tests at 5,000 miles, 10,000 miles, and every 10,000 miles thereafter to

the final mileage point using M85 or E85 and certification gasoline. For all

fuel-flexible vehicles, if evaporative emission testing is conducted, exhaust and

evaporative emission tests shall also be conducted using M35 or E10, or another

approved fuel, at the mileage points where M85 or E85 testing is conducted. The

results of these exhaust and evaporative emission tests will be used by the

Executive Officer to evaluate the vehicle's emission control deterioration with

various fuels (M85, M35, and unleaded gasoline; See Fuel Specifications, Section

9.a. of these procedures). Only the M85 or E85 and certification gasoline exhaust

emission results and the M35 or E10 evaporative emission results will be used to

determine applicable exhaust and evaporative emission deterioration factors,

As Amended 8/5/99

6-4

respectively, as required in Section 6.b. (Compliance with Emission Standards) of

these procedures.

(E) The Executive Officer may determine under 86.085-24(f), 86.090-24(f),

86.092-24(f), 86.094-24(f), or 86.095-24(f) that no testing is required.

5. Amend subparagraph (a)(5)(i) by adding the following requirement which reads:

In addition, the emission tests performed on emission-data vehicles and

durability-data vehicles shall be non-regeneration emission tests for diesel

passenger cars, light-duty trucks, and medium-duty vehicles equipped with

periodically regenerating trap oxidizer systems. For any of these vehicles equipped

with continually regenerating trap oxidizer systems, manufacturers may use the

provisions applicable to periodically regenerating trap oxidizer systems as an

option.

If such an option is elected, all references in these procedures to vehicles equipped

with periodically regenerating trap oxidizer systems shall be applicable to the

vehicles equipped with continually regenerating trap oxidizer systems.

6. Amend subparagraph (a)(8) to read:

(8) Once a manufacturer submits the information required in paragraphs (a)(7) of

this section for a durability-data vehicle, the manufacturer shall continue to run the

vehicle to 50,000 miles if the family is certified to 50,000 mile emission standards

or to the full useful life if it is certified to emission standards beyond 50,000 miles

(or to a lesser distance which the Executive Officer may have previously agreed

to), and the data from the vehicle will be used in the calculations under 86.088-28,

86.090-28, and 86.091-28. Discontinuation of a durability-data vehicle shall be

allowed only with the consent of the Executive Officer.

7. Delete subparagraph (b) (Emission-data and durability-data mileage accumulation

for light duty trucks).

b. Compliance with Emission Standards

In paragraph 86.088-28, 86.090-28, 86.091-28, 86.094-28, 86.098-28, and 86.000-28:

1. Amend subparagraph (a)(1) to read:

(1) Paragraph (a) of this section applies to passenger cars, light-duty trucks and

medium-duty vehicles, except ZEVs.

2. Amend subparagraph (a)(2) to read:

As Amended 8/5/99

6-5

(2) Each exhaust and evaporative emission standard (and family particulate

emission limits, as appropriate) of Section 3 of these test procedures and Section 1

of the "California Evaporative Emission Standards and Test Procedures for 1978

and Subsequent Model Motor Vehicles" applies to the emissions of vehicles for the

appropriate useful life as defined in Section 3 of these procedures and Section 1 of

the "California Evaporative Emission Standards and Test Procedures for 1978 and

Subsequent Model Motor Vehicles," except as otherwise provided in Section 3.m.

of these procedures.

3. Amend subparagraph (a)(3) to read:

(3) Since it is expected that emission control efficiency will change with mileage

accumulation on a vehicle, the emission level of a vehicle which has accumulated

50,000 miles will be used as the basis for determining compliance with the 50,000

mile emission standards.

4. Amend subparagraph (a)(4)(i) to read:

(i) Separate emission deterioration factors shall be determined from the exhaust

emission results of the durability-data vehicle(s) for each engine-system

combination. A separate factor shall be established for exhaust HC (non-alcohol

vehicles, non-TLEVs, non-LEVs, and non-ULEVs), exhaust OMHCE or

OMNMHCE (alcohol vehicles that are not TLEVs, LEVs, or ULEVs), exhaust

NMOG (all TLEVs, LEVs, ULEVs, and SULEVs), exhaust formaldehyde (alcohol

vehicles, TLEVs, LEVs, ULEVs, and SULEVs), exhaust CO, exhaust NOx, and

exhaust particulate (diesel vehicles only) for each engine- system combination. A

separate evaporative emission deterioration factor shall be determined for each

evaporative emission family-evaporative emission control system combination from

the testing conducted by the manufacturer (gasoline- and alcohol-fueled vehicles

only).

Separate emission correction factors (diesel passenger cars, light-duty trucks, and

medium-duty vehicles equipped with periodically regenerating trap oxidizer

systems only) shall be determined from the exhaust emission results of the

durability-data vehicle(s) for each engine-system combination. A separate factor

shall be established for exhaust HC (non-alcohol vehicles, non-TLEVs, non-LEVs,

and non-ULEVs), exhaust OMHCE or OMNMHCE (alcohol vehicles that are not

TLEVs, LEVs, or ULEVs), exhaust NMOG (TLEVs, LEVs, ULEVs, and

SULEVs), exhaust CO, exhaust NOx, and exhaust particulate for each

engine-system combination.

5. Delete subparagraph (a)(4)(i)(A)(4) (Outlier test point procedure).

REPLACE WITH:

(4) The manufacturer must use the California outlier identification procedure

entitled "Calculation of t- Statistic for Deterioration Data Outlier Test", dated

As Amended 8/5/99

6-6

December 17, 1976 and set forth in Appendix VII, to test for irregular data from a

durability-data set. If any data point is identified as a statistical outlier, the

Executive Officer shall determine, on the basis of an engineering analysis of the

causes of the outlier submitted by the manufacturer, whether the outlier is to be

rejected. The outlier shall be rejected only if the Executive Officer determines that

the outlier does not reflect representative characteristics of the emission control

system i.e., the outlier is a result of an emission control system anomaly, test

procedure error, or an extraordinary circumstance not expected to recur. Only the

identified outlier shall be eliminated; other data at that test point (i.e., data for

other pollutants) shall not be eliminated unless the Executive Officer determines,

based on the engineering analysis, that they also do not reflect representative

characteristics of the emission control system. Where the manufacturer chooses to

apply both the outlier procedure and averaging (as allowed under

86.084-26(b)(6)(i) and 86.090- 26(a)(6)(1) to the same data set, the outlier

procedure shall be completed prior to applying the averaging procedure. All

durability test data, including any outliers and the manufacturer's engineering

analysis, shall be submitted with the final application.

6. Amend subparagraph (a)(4)(i)(B) (durability vehicles must meet emissions

standards) to read:

(B) All applicable exhaust emission results shall be plotted as a function of the

mileage on the system, rounded to the nearest mile, and the best fit straight lines,

fitted by the method of least squares, shall be drawn through all these data points.

The emission data will be acceptable for use in the calculation of the deterioration

factor only if the interpolated 4,000-mile, 50,000-mile, and full useful life points on

this line are within the emission standards given in subparagraph 3. or within the

federal emission standards if a federal durability data vehicle is approved in

accordance with subparagraph 4.c.5., as applicable. For hybrid electric vehicles,

the emission data will be acceptable for use in the calculation of the deterioration

factor only if the engine mileage points corresponding to the interpolated 4,000

mile, 50,000 mile, and full useful life points of the vehicle on this line are within the

emission standards given in subparagraph 3. or within the federal emission

standards if a federal durability data vehicle is approved in accordance with

subparagraph 4.c.5., as applicable. The engine mileage points shall be determined

based on the test schedule submitted to the Executive Officer as required in

paragraphs 86.084-26 and 86.090-26. As an exception, the Executive Officer will

review the data on a case-by-case basis and may approve its use in those instances

where the best fit straight line crosses an applicable standard but no data point

exceeds the standard or when the best fit straight line crosses the applicable

standard at the 4,000-mile point but the 5,000- mile actual test point and the

50,000 mile and full useful life interpolated points are both below the standards.

For the 1998 through 2000 model years, the Executive Officer shall allow the use

of durability data for medium-duty vehicles certifying to the LEV standards as set

forth in section 3.j. of these test procedures submitted from California only, federal

or fifty-state durability vehicles which line cross applicable NOx standards.

As Amended 8/5/99

6-7

Medium-duty vehicles certifying to the optional heavy-duty engine standards as set

forth in Title 13, CCR Section 1956.8(h) shall not be eligible for this NOx line-

crossing exemption. A multiplicative exhaust emission deterioration factor shall be

calculated for each engine system combination as follows:

(1) For engine families certified to 50,000 mile emissions standards:

Factor = Exhaust emissions interpolated to 50,000 miles divided by exhaust

emissions interpolated to 4,000 miles.

(2) For engine families certified to full useful life emissions standards beyond

50,000 miles:

Factor = Exhaust emissions interpolated to the full useful life divided by

exhaust emissions interpolated to 4,000 miles.

7. Add subparagraph (a)(4)(i)(D) in paragraph 86.088-28, 86.090-28, 86.091-28,

and 86.094-28, and replace subparagraph (a)(4)(i)(D) in paragraph 86.098-28 and

86.000-28 to read:

(D) The regeneration exhaust emission data (diesel passenger cars, light-duty

trucks, and medium-duty vehicles equipped with periodically regenerating trap

oxidizer systems only) from the tests required under 86.084-26(a)(4) or

86.090-26(a)(4) shall be used to determine the regeneration exhaust emissions

interpolated to the 50,000-mile point. The regeneration exhaust emission results

shall be plotted as a function of the mileage on the system, rounded to the nearest

mile, and the best fit straight lines, fitted by the method of least squares, shall be

drawn through all these data points. The interpolated 50,000-mile point of this line

shall be used to calculate the multiplicative exhaust emission correction factor for

each engine-system combination as follows:

Factor = 1 + R-1 n

4505

where, R = the ratio of the regeneration exhaust emissions interpolated to 50,000

miles to the non-regeneration exhaust emissions interpolated to 50,000

miles.

n = the number of complete regenerations which occur during the

durability test.

These interpolated values shall be carried out to a minimum of four places to the

right of the decimal point before dividing one by the other to determine the

correction factor. The results shall be rounded to three places to the right of the

decimal point in accordance with ASTM E 29-67. For applicability to gaseous

As Amended 8/5/99

6-8

emission standards under the 100,000 mile option, R will be determined based

upon projected 100,000 mile emissions.

8. Amend subparagraph (a)(4)(ii)(A) to read:

(A) The official exhaust emission test results for each emission-data vehicle at

the 4,000 mile test point shall be multiplied by the appropriate deterioration factor,

and correction factor (diesel passenger cars, light-duty trucks, and medium-duty

vehicles equipped with periodically regenerating trap oxidizer systems only):

Provided: that if a deterioration factor as computed in paragraph (a)(4)(i)(B) of

this section or a correction factor as computed in paragraph (a)(4)(i)(D) of this

section is less than one, that deterioration factor or correction factor shall be one

for the purposes of this paragraph.

9. Amend subparagraph (a)(4)(iii) to read:

(iii) The emissions to compare with the standard (or the family particulate

emission limit, as appropriate) shall be the adjusted emissions of paragraphs

(a)(4)(ii)(A) and (B) of this section for each emission-data vehicle. Before any

emission value is compared with the standard (or the family particulate limit, as

appropriate), it shall be rounded, in accordance with ASTM E29-67 to one

significant figure beyond the number of significant figures contained in the

standard (or the family particulate emission limit, as appropriate). The rounded

emission values may not exceed the standard (or the family particulate emission

limit, as appropriate). Fleet average NMOG value calculations shall be rounded, in

accordance with ASTM E29-67, to four significant figures before comparing with

fleet average NMOG requirements.

10. Delete subparagraphs (b) (Compliance provisions for light-duty trucks), (c)

(Compliance provisions for heavy-duty engines), and (d) (Compliance provisions

for heavy-duty vehicles).

c. Prohibition of Defeat Devices

In paragraph 86.094-16 and 86.000-16:

1. Amend subparagraph (a) to read:

No new passenger car, light-duty truck, or medium-duty vehicle shall be equipped

with a defeat device.

As Amended 8/5/99

6-9

7. Small-Volume Manufacturer's Certification Procedures

a. In paragraphs 86.084-14, 86.090-14, 86.092-14, and 86.095-14:

1. Amend subparagraph (b)(1) to read:

(1) The optional small-volume manufacturers certification procedures

apply to light-duty vehicles (passenger cars, light-duty trucks, and

medium-duty vehicles), produced by manufacturers with California sales

(for the model year in which certification is sought) of fewer than 3,000

units (PC, LDT and MDV combined). The optional small-volume

manufacturers certification procedures shall not apply to hybrid electric

vehicles. All hybrid electric vehicle manufacturers shall be subject to the

certification requirements established for hybrid electric vehicles.

2. Delete subparagraphs (b)(2) through (b)(5) (Determining aggregated sales;

aggregated sales provisions for small volume manufacturers).

3. Amend subparagraph (c)(4) to read:

(4) A small-volume manufacturer shall include in its records all of the

information that ARB requires in 86.088- 21, 86.090-21, 86.091-21, or

86.094-21, including the modifications noted in Section 4.a. of these test

procedures. This information will be considered part of the manufacturer's

application for certification and must be submitted to the Executive Officer.

4. Delete subparagraph (c)(7)(i)(A) (Worst-case selection of emission-data

vehicles).

5. Amend subparagraph (c)(11)(ii)(D)(1) to show the 3,000 total vehicle sales

limit applicable to California for determining a small-volume manufacturer.

As Amended 8/5/99

7-1

8. Alternative Procedures for Notification of Additions and Changes

a. Amend subparagraph 86.082-34(a) by adding the following additional

requirements which read:

A manufacturer must notify the Executive Officer within 10 working days

of making an addition of a vehicle to a certified engine family or a change

in a vehicle previously covered by certification.

The manufacturer shall also submit, upon request of the Executive Officer, the following

items:

(1) service bulletin.

(2) driveability statement.

(3) test log.

(4) maintenance log.

All running changes and field fixes which do not adversely affect the system durability are

deemed approved unless disapproved by the Executive Officer within 30 days of the

receipt of the running change or field fix request. A change not specifically identified in

the manufacturer's application must also be reported to the Executive Officer if the change

may adversely affect engine or emission control system durability. Examples of such

changes include any change that could affect durability, thermal characteristics , deposit

formation, or exhaust product composition, i.e., combustion chamber design, cylinder

head material, camshaft profile, computer modifications, turbocharger, intercooler

wastegate characteristics, and transmission or torque converter specifications. Running

changes and field fixes meeting the definitions contained in Appendix VI shall be

automatically deemed approved by the Executive Officer, as long as the conditions set

forth in Appendix VI are satisfied.

The manufacturer is required to update and submit to the Executive Officer the

"supplemental data sheet" for all running changes and field fixes implemented with the

change notification. The manufacturer shall submit, on a monthly basis, by engine family,

a list of running changes/field fixes giving the document number date submitted and a brief

description of the change.

As Amended 8/5/99

8-1

9. Test Requirements

a. Fuel Specifications

In paragraph 86.113-90, 86.113-91, and 86.113-94:

1. Add subparagraphs (a)(1)(i) and (ii) which read:

(i) For 1992-1994 model-year Otto-cycle vehicles, gasoline having the

specifications listed below may be used in exhaust and evaporative emission testing

as an option to the specifications referred to in subparagraph (a)(1). If a

manufacturer elects to utilize this option, both exhaust and evaporative emission

testing shall be conducted by the manufacturer with gasoline having the

specifications listed below, and the Executive Officer shall conduct exhaust and

evaporative emission testing with gasoline having the specifications listed below.

Research Octane, minimum 93

Sensitivity, minimum 7.5

Lead (organic), maximum, g/US gal 0.050

Distillation Range

IBP, degrees F 75-100

10 pct. point, degrees F 120-140

50 pct. point, degrees F 200-230

90 pct. point, degrees F 300-325

EP, maximum, degrees F 415

Sulfur, maximum weight pct. 0.03

Phosphorous, maximum, g/US gal 0.005

RVP, psi 7.5-8.0

Hydrocarbon composition

Olefins, maximum pct. 10

Aromatics, maximum pct. 35

Saturates remainder

(ii) For 1993-1994 model-year Otto-cycle TLEVs, LEVs, and ULEVs and for all

1995 and subsequent model-year Otto-cycle vehicles, gasoline having the

specifications listed below may be used in exhaust and evaporative emission testing

as an option to the specifications referred to in subparagraph (a)(1). If a

manufacturer elects to utilize this option, both exhaust and evaporative emission

testing shall be conducted by the manufacturer with gasoline having the

specifications listed below, and the Executive Officer shall conduct exhaust and

evaporative emission testing with gasoline having the specifications listed below.

As Amended 8/5/99

9-1

Fuel Property a/ Limit Test Method b/

Octane, (R+M)/2 (min) 91 D2699-88, D 2700-88

Sensitivity (min) 7.5 D 2699-88, D 2700-88

Lead, g/gal (max) (No lead added) 0-0.01 Title 13 CCR §2253.4(c)

Distillation Range,

F Title 13 CCR §2263 c/

10 pct. point, 130-150

50 pct. point, 200-210 d/

90 pct. point, 290-300 e/

EP, maximum 390

Residue, vol% (max) 2.0

Sulfur, ppm by wt. 30-40 Title 13 CCR §2263

Phosphorous, g/gal (max) 0.005 Title 13 CCR §2253.4(c)

RVP, psi 6.7-7.0 Title 13 CCR §2263

Olefins, vol % 4.0-6.0 Title 13 CCR §2263

Total Aromatic Hydrocarbons (vol%)22-25 Title 13 CCR §2263

Benzene, vol % 0.8-1.0 f/ Title 13 CCR §2263

Multi-Substituted Alkyl

Aromatic Hydrocarbons, vol % 12-14 g/

MTBE, vol % 10.8-11.2 Title 13 CCR §2263

Additives: Sufficient to meet requirements of Title 13, CCR §2257

Copper Corrosion No. 1 D 130-88

Gum, Washed, mg/100 ml (max) 3.0 D 381-86

Oxidation Stability, minutes (min) 1000 D 525-88

Specific Gravity Report h/

Heat of Combustion Report h/

Carbon, wt% Report h/

Hydrogen, wt% Report h/

a/ The gasoline must be blended from typical refinery feedstocks.

b/ ASTM specification unless otherwise noted. A test method other than that specified may

be used following a determination by the Executive Officer that the other method

produces results equivalent to the results with the specified method.

c/ Although Title 13 CCR § 2263 refers to the temperatures of the 50 and 90 percent points,

this procedure can be extended to the 10 percent and end point temperatures, and to the

determination of the residue content.

d/ The range for interlaboratory testing is 195-215

e/ The range for interlaboratory testing is 285-305

f/ The range for interlaboratory testing is 0.7-1.1 percent by volume.

g/ "Detailed Hydrocarbon Analysis of Petroleum Hydrocarbon Distillates, Reformates, and

Gasoline by Single Column High Efficiency (Capillary) Column Gas Chromatography," by

Neil Johansen, 1992, Boulder, CO.

h/ The fuel producer should report this fuel property to the fuel purchaser. Any generally

accepted test method may be used and shall be identified in the report.

2. Delete subparagraph (a)(3) (Methanol test fuel for Otto-cycle vehicles).

As Amended 8/5/99

9-2

3. Delete subparagraph (a)(4) (Alternative methanol test fuels for Otto-cycle

vehicles).

4. Amend subparagraph (a)(5) to read:

(5) The specification range of the fuels to be used under paragraph (a)(2)

of this section shall be reported in accordance with 86.090-21(b)(3) or

86.091-21(b)(3).

5. Amend subparagraph (b)(2) to read:

(2) Except as noted below, petroleum fuel for diesel vehicles meeting the

specifications referenced in 86.113-90(b)(2), or substantially equivalent

specifications approved by the Executive Officer, shall be used in exhaust

emission testing. The grade of petroleum fuel recommended by the engine

manufacturer, commercially designated as "Type 2-D" grade diesel, shall be

used. For 1993 and subsequent model-year diesel vehicles, petroleum fuel

meeting the specifications of 86.113-94(b)(2) may be used in exhaust

emission testing as an option to the specifications in 86.113-90(b)(2). For

1995 and subsequent model-year diesel-fueled vehicles, the petroleum fuel

used in exhaust emission testing may meet the specifications listed below,

or substantially equivalent specifications approved by the Executive

Officer, as an option to the specifications in 86.113-90(b)(2) or

86.113-94(b)(2). Where a manufacturer elects pursuant to this

subparagraph to conduct exhaust emission testing using the specifications

of 86.113-94(b)(2), or the specifications listed below, the Executive Officer

shall conduct exhaust emission testing with the diesel fuel meeting the

specifications elected by the manufacturer.

As Amended 8/5/99

9-3

Fuel Property Limit Test Method a/

Natural Cetane Number 47-55 D 613-86

Distillation Range,

F Title 13, CCR, §2282(g)(3)

IBP 340-420

10% point 400-490

50% point 470-560

90% point 550-610

EP 580-660

API Gravity, degrees 33-39 D 287-82

Total Sulfur, wt. % 0.01-0.05 Title 13, CCR, §2282(g)(3)

Nitrogen Content, ppmw 100-500 Title 13, CCR, §2282(g)(3)

Total Aromatic Hydrocarbons, vol. %8-12 Title 13, CCR, §2282(g)(3)

Polycyclic Aromatic

Hydrocarbons, wt. % (max) 1.4 Title 13, CCR, §2282(g)(3)

Flashpoint,

F (max) 130 D 93-80

Viscosity @ 40 F, centistokes 2.0-4.1 D 445-83

a/ ASTM specifications unless otherwise noted. A reference to a subsection of Title 13,

CCR, §2282 means the test method identified in that subsection for the particular property. A

test method other than that specified may be used following a determination by the Executive

Officer that the other method produces results equivalent to the results of the specified method.

6. Amend subparagraph (b)(3) to read:

(3) Except as noted below, petroleum fuel for diesel vehicles meeting the

following specifications, or substantially equivalent specifications approved

by the Executive Officer shall be used in service accumulation. The grade

of diesel fuel recommended by the engine manufacturer, commercially

designated as "Type 2-D" grade diesel fuel, shall be used. For 1993 and

subsequent model-year diesel-fueled vehicles, petroleum fuel meeting the

specifications of 86.113-94(b)(3) may be used in service accumulation. For

1995 and subsequent model-year diesel- fueled vehicles, diesel fuel

representative of commercial diesel fuel which will be generally available

through retail outlets shall be used in service accumulation.

7. Delete subparagraph (b)(4) (Methanol test fuel for diesel vehicles).

8. Delete subparagraph (b)(5) (Alternative methanol test fuels for diesel

vehicles)

9. Amend subparagraph (b)(6) to read:

As Amended 8/5/99

9-4

(6) The specification range of the fuels to be used under paragraphs (b)(2)

and (b)(3) of this section shall be reported in accordance with

86.090-21(b)(3) or 86.091-21(b)(3).

10. Replace subparagraph (d) with:

(d) Methanol-Gasoline Fuel Specifications for 1993 Model-Year Vehicles.

Various methanol-gasoline fuel blends will be used according to the type of

methanol-fueled vehicle being certified and the particular aspect of the

certification procedure being conducted, as specified below. Gasoline used

for blending fuel for use in mileage accumulation shall be representative of

commercial regular unleaded gasoline which will be generally available

through retail outlets. Gasoline used for blending fuel for use in emission

testing shall conform with the unleaded gasoline specification noted in

paragraph (a) above.

Fuel additives and ignition improvers intended for use in methanol test fuels

shall be subject to the approval of the Executive Officer. In order for such

approval to be granted, a manufacturer must demonstrate that emissions

will not be adversely affected by the use of the fuel additive or ignition

improver.

(1) Otto-cycle methanol vehicles and hybrid electric vehicles which

use Otto-cycle methanol engines

Mileage-accumulation fuel: For methanol vehicles and hybrid

electric vehicles which use Otto-cycle methanol engines a

methanol-gasoline blend composed of 85-percent methanol which is

representative of commercially available methanol and 15-percent

unleaded gasoline as noted above.

Emission-testing fuel: For vehicles certifying on methanol, a

methanol-gasoline blend composed of 85 percent chemical grade

methanol and 15-percent unleaded gasoline as noted above.

(2) Methanol-fueled diesel vehicles and hybrid electric vehicles

which use methanol-fueled diesel engines.

Mileage-accumulation fuel: For methanol vehicles and hybrid

electric vehicles which use methanol-fueled diesel engines,

commercially available methanol fuel.

Emission-testing fuel: chemical grade methanol.

(3) Fuel-flexible vehicles

As Amended 8/5/99

9-5

Mileage-accumulation fuel: For both durability-data vehicles and

emission-data vehicles, mileage accumulation shall be conducted

with one fuel. For vehicles designed to operate on methanol, a

methanol-gasoline blend composed of 85-percent methanol and

15-percent unleaded gasoline both of which are representative of

commercially available fuels shall be used. Alternative mileage

accumulation fuels and procedures may be used if demonstrated to

result in equivalent or more severe deterioration of the vehicle's

emission control system, subject to the prior approval of the

Executive Officer.

Emission-testing fuel: Case (1) For exhaust only emission testing

of emission-data vehicles, a methanol-gasoline blend composed of

85-percent chemical grade methanol and 15-percent unleaded

gasoline (M85), and unleaded gasoline shall be used. For

evaporative emission testing, a blend of 35-percent chemical grade

methanol and 65-percent unleaded gasoline (M35) shall be used.

Case (2) For the testing required under 6.a.4.(D) of these

procedures (of durability-data vehicles), exhaust (exhaust OMHCE

or OMNMHCE for non-TLEVs, non-LEVs, and non-ULEVs,

exhaust NMOG for TLEVs, LEVs, and ULEVs, exhaust

formaldehyde, exhaust CO, and exhaust NOx) and evaporative

emission tests (evaporative OMHCE) shall be conducted at the

specified mileage intervals and with the specified fuels using

85-percent chemical grade methanol and 15-percent unleaded

gasoline (M85), unleaded gasoline, and/or 35-percent chemical

grade methanol and 65-percent unleaded gasoline (M35), as

applicable.

For both Case (1) and (2), alternative methanol-gasoline blends may

be used in place of M35 if demonstrated to result in equivalent or

higher evaporative emissions, subject to the prior approval of the

Executive Officer.

(4) Other methanol fuels may be used for testing and service

accumulation provided: (i) they are commercially available; (ii) information,

acceptable to the Executive Officer, is provided to show that only the

designated fuel would be used in customer service; (iii) use of a fuel listed

in this section would not have a detrimental effect on emissions or

durability; (iv) written approval from the Executive Officer of the fuel

specifications must be provided prior to the start of testing.

(5) The specification of the fuels to be used under paragraphs

(d)(1), (d)(2), and (d)(3) of this section shall be reported in accordance

with 86.090- 21(b)(3), 86.091-21(b)(3), or 86.094-21(b)(3).

As Amended 8/5/99

9-6

(6) The specifications set forth in subparagraph (e) may be used as

an option for 1993 model-year vehicles.

11. Add new subparagraph (e) to read:

(e) Alcohol-Gasoline Fuel Specifications for 1994 and Subsequent

Model-Year Vehicles.

Various alcohol-gasoline fuel blends will be used according to the type of

alcohol-fueled vehicle being certified and the particular aspect of the

certification procedure being conducted, as specified below.

Fuel additives and ignition improvers intended for use in alcohol test fuels

shall be subject to the approval of the Executive Officer. In order for such

approval to be granted, a manufacturer must demonstrate that emissions

will not be adversely affected by the use of the fuel additive or ignition

improver.

(1) Otto-cycle alcohol vehicles and hybrid electric vehicles which

use Otto-cycle alcohol engines

Mileage-accumulation fuel: For methanol, ethanol and hybrid

electric vehicles which use Otto-cycle methanol or ethanol engines,

fuel which meets the specifications listed in Title 13, CCR, Section

2292.1, 2292.2, 2292.3 or 2292.4, as applicable.

Emission-testing fuel: For methanol, ethanol and hybrid electric

vehicles which use Otto-cycle methanol or ethanol engines, fuel

which meets the specifications listed in Title 13, CCR, Section

2292.1, 2292.2, 2292.3 or 2292.4, as modified by the following:

The fuel specification for Title 13, CCR, Section 2292.1 shall be

modified to: a) require methanol content at 98.0 ± 0.5 volume

percent; b) require ethanol content at 1.0 ± 0.1 volume percent; c)

require certification gasoline conforming with specifications noted

in section 9.a.1. of these test procedures at 1.0 ± 0.1 volume

percent.

The fuel specification for Title 13, CCR, Section 2292.3 shall be

modified to: a) require ethanol content at 98.0 ± 0.5 volume

percent; b) require methanol content at 1.0 ± 0.1 volume percent; c)

require certification gasoline conforming with specifications noted

in section 9.a.1. of these test procedures at 1.0 ± 0.1 volume

percent.

As Amended 8/5/99

9-7

The fuel specification for Title 13, CCR, Section 2292.2 and 2292.4

shall be modified to require certification gasoline conforming with

specifications noted in section 9.a.1. of these test procedures as the

hydrocarbon fraction. The vapor pressure specification for the

emission-testing fuel shall be adjusted to 8.0 - 8.5 psi., using

common blending components from the gasoline stream.

(2) Alcohol-fueled diesel vehicles and hybrid electric vehicles

which use alcohol-fueled diesel engines

Mileage-accumulation fuel: For methanol, ethanol and hybrid

electric vehicles which use alcohol-fueled diesel engines, fuel which

meets the specifications listed in Title 13, CCR, Section 2292.1,

2292.2, 2292.3 or 2292.4, as applicable.

Emission-testing fuel: For methanol, ethanol and hybrid electric

vehicles which use Otto-cycle alcohol engines, fuel which meets the

specifications listed in Title 13, CCR, Section 2292.1, 2292.2,

2292.3 or 2292.4, as modified by the following:

The fuel specification for Title 13, CCR, Section 2292.1 shall be

modified to: a) require methanol content at 98.0 ± 0.5 volume

percent; b) require ethanol content at 1.0 ± 0.1 volume percent; c)

require certification gasoline as noted in section 9.a.1. of these test

procedures at 1.0 ± 0.1 volume percent.

The fuel specification for Title 13, CCR, Section 2292.3 shall be

modified to require ethanol content at 98.0 ± 0.5 volume percent

and require certification gasoline conforming with specifications

noted in section 9.a.1. of these test procedures at 1.0 ± 0.1 volume

percent.

The fuel specification for Title 13, CCR, Section 2292.2 and 2292.4

shall be modified to require certification gasoline conforming with

specifications noted in section 9.a.1. of these test procedures as the

hydrocarbon fraction. The vapor pressure specification for the

emission-testing fuel shall be adjusted to 8.0 - 8.5 psi., using

common blending components from the gasoline stream.

(3) Fuel-flexible vehicles

Mileage-accumulation fuel: For both durability-data vehicles and

emission-data vehicles, mileage accumulation shall be conducted

with one fuel. For vehicles designed to operate on methanol, a fuel

that meets the specifications listed in Title 13, CCR, Section 2292.2

shall be used. For vehicles designed to operate on ethanol, a fuel

As Amended 8/5/99

9-8

that meets the specifications listed in Title 13, CCR, Section 2292.4

shall be used. Alternative mileage accumulation fuels and

procedures may be used if demonstrated to result in equivalent or

more severe deterioration of the vehicle's emission control system,

subject to the prior approval of the Executive Officer.

Emission-testing fuel: Case (1) For exhaust only emission testing

of emission-data vehicles, fuel that meets the specifications listed in

Title 13, CCR, Section 2292.2 or 2292.4. For evaporative emission

testing, a blend of fuel that meets the specifications listed in Title

13, CCR, Section 2292.2 or 2292.4 and gasoline meeting the

specifications of section 9.a.1. of these test procedures such that the

final blend is composed of either 35 volume percent methanol (plus

or minus 1 volume percent of total blend) for methanol-fueled

vehicles or 10 volume percent ethanol (plus or minus 1 volume

percent of total blend) for ethanol-fueled vehicles shall be used.

Case (2) For the testing required under 6.a.4.(D) of these

procedures (of durability-data vehicles), exhaust emission tests

(exhaust OMHCE or OMNMHCE for non-TLEVs, non-LEVs, and

non-ULEVs, exhaust NMOG for TLEVs, LEVs, and ULEVs,

exhaust formaldehyde, exhaust CO, and exhaust NOx) and

evaporative emission tests (evaporative OMHCE) shall be

conducted at the specified mileage intervals using: (i) emission

testing fuel that meets the specifications listed in subparagraph

(e)(1) of section 9.a.11. of these test procedures and (ii) a blend of

fuel produced by combining emission- testing fuel that meets the

specifications in subparagraph (e)(1) of section 9.a.11. of these test

procedures and certification gasoline described in section 9.a.1. of

these test procedures such that the final fuel is either 35 volume

percent methanol (plus or minus 1 volume percent of total blend)

and 65 volume percent certification gasoline for methanol-fueled

vehicles or 10 volume percent ethanol (plus or minus 1 volume

percent of total blend) and 90 volume percent certification gasoline

for ethanol-fueled vehicles.

For both Case (1) and (2), alternative alcohol-gasoline blends may

be used in place of M35 or E10 if demonstrated to result in

equivalent or higher evaporative emissions, subject to the prior

approval of the Executive Officer.

(4) The specification of the fuels to be used under paragraphs

(e)(1), (e)(2), (e)(3) and (e)(4) of this section shall be reported in

accordance with 86.090-21(b)(3) or 86.091-21(b)(3).

12. Add new subparagraph (f) to read:

As Amended 8/5/99

9-9

(f) Gaseous Fuel Specifications for 1988 Through 1993 Model Year

Vehicles.

(1) Gaseous fuels representative of commercial gaseous fuels

which will be generally available through retail outlets in California or

liquid petroleum gas having the ASTM D1835 or NGPA HD-5

specification shall be used in service accumulation.

(2) Liquid petroleum gas having the ASTM D1835 or NGPA

HD-5 specification shall be used for exhaust and evaporative emission

testing.

(3) Natural gas representative of commercial natural gas which will

be generally available through retail outlets in California shall be used for

exhaust emission testing.

(4) Written approval from the Administrator of the fuel

specifications must be provided prior to the start of testing.

(5) For dedicated gaseous- and dual-fueled vehicles and for hybrid

electric vehicles which use gaseous-fueled engines, the mileage

accumulation fuel for both durability-data vehicles and emission-data

vehicles shall be conducted with one fuel. For vehicles designed to operate

on natural gas, natural gas which meets the requirements of (3) shall be

used. For vehicles designed to operate on liquefied petroleum gas, liquefied

petroleum gas which meets the requirements of (2) shall be used.

(6) The specifications set forth in subparagraph (g) may be used as

an option for 1993-model year vehicles.

(7) Alternative mileage-accumulation fuels and test procedures

may be used if demonstrated to result in equivalent or more severe

deterioration of the vehicle's emission control system, subject to the prior

approval of the Executive Officer.

(8) Alternative emission-test fuels may be used if demonstrated to

result in equivalent or higher exhaust emissions, subject to the prior

approval of the Executive Officer.

13. Add new subparagraph (g) to read:

(g) Gaseous Fuel Specifications for 1994 and Subsequent Model Year

Vehicles.

(1) Dedicated gaseous- and dual-fueled vehicles and hybrid electric

vehicles which use liquefied petroleum gas

As Amended 8/5/99

9-10

Mileage accumulation fuel: Liquefied petroleum gas meeting the

specifications listed in Title 13, CCR, Section 2292.6 shall be used in

service accumulation.

Emission-testing fuel: Liquefied petroleum gas meeting the specifications

listed in Title 13, CCR, Section 2292.6 shall be used for exhaust and

evaporative emission testing with the following exceptions: a) propane

content limited to 93.5 ± 1.0 volume percent; b) propene content limited to

3.8 ± 0.5 volume percent; c) butane and heavier components limited to 1.9

± 0.3 volume percent.

(2) Dedicated gaseous- and dual-fueled vehicles and hybrid electric

vehicles which use natural gas

Mileage accumulation fuel: Natural gas meeting the specifications listed

in Title 13, CCR, Section 2292.5 shall be used in service accumulation.

Emission-testing fuel: Natural gas meeting the specifications listed in

Title 13, CCR, Section 2292.5 as modified by the following: a) methane

content limited to 90.0 ± 1.0 mole percent; b) ethane content limited to 4.0

± 0.5 mole percent; c) C

and higher hydrocarbon content at 2.0 ± 0.3 mole

percent; d) oxygen content at 0.5 mole percent maximum; e) inert gases

(sum of CO

and N

) content at 3.5 ± 0.5 mole percent.

b. Road Load Power Test Weight

In paragraph 86.129-80, 86.129-94 and 86.129-00:

1. Amend subparagraph (a) to add:

As Amended 8/5/99

9-11

ROAD LOAD POWER TEST WEIGHT

AND INERTIA WEIGHT CLASS DETERMINATION

ROAD LOAD POWER @ 50 mph - Light-Duty Trucks

LOADED WEIGHT

(POUNDS)

EQUIVALENT

TEST WEIGHT

(POUNDS)

INERTIA WEIGHT

CLASS (POUNDS)

10001 to 10250 10000 10000

10251 to 10750 10500 10500

10751 to 11250 11000 11000

11251 to 11750 11500 11500

11751 to 12250 12000 12000

12251 to 12750 12500 12500

12751 to 13250 13000 13000

13251 to 13750 13500 13500

13751 to 14000 14000 14000

2. Add subparagraph (d) in paragraph 86.129-80, add subparagraph (e) in

paragraph 86.129-94, and add subparagraph (g) in paragraph 86.129-00 to

read:

(d) Power absorption unit adjustment- medium-duty vehicles.

(1) The power absorption unit shall be adjusted to reproduce road load

power at 50 mph true speed. The dynamometer power absorption shall

take into account the dynamometer friction, as discussed in paragraph

86.118-78.

(2) The dynamometer road load setting is determined from the loaded test

weight, the reference frontal area, vehicle protuberances, and an

aerodynamic drag coefficient as determined appropriate by the Executive

Officer. The vehicle manufacturer shall submit the procedure by which the

aerodynamic drag coefficient was determined in the test vehicle information

section in the certification application. The dynamometer road load setting

shall be determined by the following equation.

(i) For medium-duty vehicles to be tested on twin or single, large roll

dynamometers.

For 1995 and subsequent medium-duty vehicles, "Loaded Weight" shall be the average of the vehicle's curb

weight and gross vehicle weight.

As Amended 8/5/99

9-12

Hp = (0.00182)V((0.015)(W)+(0.0375)(Cd)(A)(V

)/(32.2ft/s

))+P

where:

Hp = the dynamometer power absorber setting at 50 mph (horsepower).

0.00182 = conversion factor to horsepower.

V = velocity in feet/sec.

0.015 = coefficient of rolling resistance.

W = loaded vehicle weight in pounds.

0.0375 = air density in lbm/cubic ft.

Cd = aerodynamic drag coefficient.

A = reference frontal area in square ft.

32.2 ft/s

= gravitational acceleration

P = protuberance power (horsepower)

(ii) The protuberance power, P shall be determined per subparagraph

86.129-80(c)(2)(i).

(iii) The dynamometer power absorber setting for medium-duty vehicles

shall be rounded to the nearest 0.1 horsepower.

(3) The road load power calculated above shall be used or the vehicle

manufacturer may determine the road load power by an alternate procedure

requested by the manufacturer and approved in advance by the Executive

Officer.

(4) Where it is expected that more than 33 percent of a vehicle line within

an engine-system combination will be equipped with air conditioning, per

subparagraph 86.090-24(g)(2), 86.092-24(g)(2), 86.094-24(g)(2), or

86.095-24(g)(2), the road load power as determined in paragraph (d) (2) or

(3) of this section shall be increased by 10 percent up to a maximum

increment of 1.4 horsepower, for testing all test vehicles of that vehicle line

within that engine-system combination if those vehicles are intended to be

offered with air conditioning in production. This power increment shall be

added to the indicated dynamometer power absorption setting prior to

rounding off this value.

(5) For electric and hybrid electric vehicle lines where it is expected that

more than 33 percent of a vehicle line will be equipped with air

conditioning, per subparagraph 86.090-24(g)(2), 86.092-24(g)(2),

86.094-24(g)(2), or 86.095-24(g)(2), which derives power from the battery

pack, the road load shall be increased by the incremental horsepower

required to operate the air conditioning unit. The incremental increase

shall be determined by recording the difference in energy required for a

hybrid electric vehicle under all-electric power to complete the running loss

test fuel tank temperature profile test sequence without air conditioning

As Amended 8/5/99

9-13

and the same vehicle tested over the running loss test fuel tank temperature

profile test sequence with the air conditioning set to the "NORMAL" air

conditioning mode and adjusted to the minimum discharge air temperature

and high fan speed over the time period needed to perform the test

sequence, and converting this value into units of horsepower. Vehicles

equipped with automatic temperature controlled air conditioning systems

shall be operated in "AUTOMATIC" temperature and fan modes with the

system set at 72EF. The running loss test fuel tank temperature profile test

sequence is found in the "California Evaporative Emission Standards and

Test Procedures for 1978 and Subsequent Model Motor Vehicles" as

incorporated by reference in section 1976, Title 13, CCR.

c. Test Sequence; General Requirements

In paragraphs 86.130-78, 86.130-96, and 86.130-00:

1. Amend paragraph 86.130-78 to read:

The test sequence shown in figure B78-10 shows the steps encountered as the test

vehicle undergoes the procedures subsequently described to determine conformity

with the standards set forth. Ambient temperature levels shall not be less than

68EF (20EC) nor more than 86E F (30EC). For purposes of determining

conformity with 50EF test requirements, the procedures set forth in Section 11k of

these test procedures shall apply. For all hybrid electric vehicles and all 1995 and

subsequent model-year vehicles certifying to running loss and useful life

evaporative emission standards, the test sequence specified in"California

Evaporative Emission Standards and Test Procedures for 1978 and Subsequent

Model Motor Vehicles" as incorporated by reference in section 1976, Title 13,

CCR shall apply.

In paragraphs 86.130-96 and 86.130-00:

2. Delete subparagraph (a)

REPLACE WITH:

(a) For purposes of determining conformity with 50EF test requirements,

the procedures set forth in Section 11.k. of these test procedures shall apply. For

all hybrid electric vehicles and all 1995 and subsequent model-year vehicles

certifying to running loss and useful life evaporative emission standards, the test

sequence specified in "California Evaporative Emission Standards and Test

Procedures for 1978 and Subsequent Model Motor Vehicles" as incorporated by

reference in section 1976, Title 13, CCR shall apply.

3. Add subparagraph (g) to read:

As Amended 8/5/99

9-14

(g) A manufacturer has the option of simulating air conditioning operation

during testing at other ambient test conditions provided it can demonstrate that the

vehicle tailpipe exhaust emissions are representative of the emissions that would

result from the SC03 cycle test procedure and the ambient conditions of paragraph

86.161-00. The Executive Officer has approved two optional air conditioning test

simulation procedures, AC1 and AC2, for the 2001 to 2003 model years only. If a

manufacturer desires to conduct an alternative SC03 test simulation other than

AC1 and AC2, or the AC1 and AC2 simulations for the 2004 and subsequent

model years, the simulation test procedure must be approved in advance by the

Executive Officer (see paragraphs 86.162-00 and 86.162-03).

d. Vehicle Preconditioning

In paragraphs 86.132-82, 86.132-90, 86.132-96, and 86.132-00:

1. Amend subparagraph (a)(2) of paragraphs 86.132-82 and 86.132.90 to

read:

(2) Within one hour of being fueled the vehicle shall be placed, either by

being driven or pushed, on a dynamometer and operated through one Urban

Dynamometer Driving Schedule (UDDS) test procedure, see 86.115 and Appendix

I of the federal procedures.

The UDDS performed prior to a non-regeneration emission test shall not contain a

regeneration (diesel passenger cars, light-duty trucks, and medium-duty vehicles

equipped with periodically regenerating trap oxidizer systems only). A gasoline

fueled test vehicle may not be used to set dynamometer horsepower.

2. Amend subparagraph (a)(3) of paragraphs 86.132-82 and 86.132.90 to

read:

(3) For those unusual circumstances where additional preconditioning is

desired by the manufacturer, such preconditioning may be allowed with the

advance approval of the Executive Officer. The Executive Officer may also

choose to conduct or require the conduct of additional preconditioning to insure

that the evaporative emission control system is stabilized in the case of Otto-cycle

engines, or to insure that the exhaust system is stabilized in the case of diesel

engines. The additional preconditioning shall consist of an initial one hour

minimum soak and, one, two, or three driving cycles of the UDDS (or more in the

case of a diesel vehicle equipped with a periodically regenerating trap oxidizer

system, which is being preconditioned for a regeneration emission test), as

described in paragraph (a)(2) of this section, each followed by a soak of at least

one hour with engine off, engine compartment cover closed and cooling fan off.

The vehicle may be driven off the dynamometer following each UDDS for the soak

period.

As Amended 8/5/99

9-15

3. For all hybrid electric vehicles and all 1995 and subsequent model-year

vehicles subject to running loss and useful life evaporative emission standards, the

preconditioning sequence for the Federal Test Procedure specified in "California

Evaporative Emission Standards and Test Procedures for 1978 and Subsequent

Model Motor Vehicles" as incorporated by reference in section 1976, Title 13,

CCR shall apply. In addition, the preconditioning sequence for the SFTP

described in subparagraphs (n) and (o) of paragraph 86.132-00 shall apply.

e. Regeneration Recording Requirements

Amend paragraph 86.142-82 by adding the following subparagraph (r)which reads:

(r) The manufacturer shall record in the durability-data vehicle logbook, the

number of regenerations which occur during the 50,000 mile durability test of each

diesel passenger car, light-duty truck and medium-duty vehicle equipped with a

periodically regenerating trap oxidizer system. The manufacturer shall include, for

each regeneration: the date and time of the start of regeneration, the duration of

the regeneration, and the accumulated mileage at the start and the end of

regeneration. The number of regenerations will be used in the calculation of the

correction factor in 40 CFR Part 86, Section 28.

Amend paragraph 86.142-90 by adding the following subparagraph (s)which reads:

(s) The manufacturer shall record in the durability-data vehicle logbook, the

number of regenerations which occur during the 50,000 mile durability test of each

diesel passenger car, light-duty truck and medium-duty vehicle equipped with a

periodically regenerating trap oxidizer system. The manufacturer shall include, for

each regeneration: the date and time of the start of regeneration, the duration of

the regeneration, and the accumulated mileage at the start and the end of

regeneration. The number of regenerations will be used in the calculation of the

correction factor in 40 CFR Part 86, Section 28.

f. All-Electric Range Test Requirements

All 1993 and subsequent ZEVs and Type A and Type B hybrid electric vehicles

shall be subject to the All-Electric Range Test specified below for the purpose of

determining the energy efficiency and operating range of a ZEV or of a hybrid

electric vehicle operating without the use of its auxiliary power unit. For hybrid

electric vehicles, the manufacturer may elect to conduct the All-Electric Range

Test prior to vehicle preconditioning in the exhaust and evaporative emission test

sequence specified in "California Evaporative Emission Standards and Test

Procedures for 1978 and Subsequent Model Motor Vehicles" as incorporated by

reference in section 1976, Title 13, CCR.

As Amended 8/5/99

9-16

(1) Cold soak. The vehicle shall be stored at an ambient temperature not

less than 68EF (20EC) and not more than 86EF (30EC) for 12 to 36 hours. During

this time, the vehicle's battery shall be charged to a full state-of-charge.

(2) Driving schedule.

(a) Determination of All-Electric Range-Urban. At the end of the cold

soak period, the vehicle shall be placed, either driven or pushed, onto a

dynamometer and operated through an Urban Dynamometer Driving

Schedule, 40 CFR, Part 86, Appendix I, until the vehicle is no longer able

to maintain within 5 miles per hour of the speed requirements or within 2

seconds of the time requirements of the driving schedule. For hybrid

electric vehicles, this determination shall be performed without the use of

the auxiliary power unit.

(b) Determination of All-Electric Range-Highway. At the end of the

cold soak period, the vehicle shall be placed, either driven or pushed, onto

a dynamometer and operated through a Highway Fuel Economy Driving

Schedule, found in 40 CFR, Part 600, Appendix I, until the vehicle is no

longer able to maintain within 5 miles per hour of the speed requirements

or within 2 seconds of the time requirements of the driving schedule. For

hybrid electric vehicles, this determination shall be performed without the

use of the auxiliary power unit.

(3) Recording requirements. Once the vehicle is no longer able to

maintain the speed and time requirements specified in (2) above, or once the

auxiliary power unit turns on, in the case of a hybrid electric vehicle, the

accumulated mileage and energy usage of the vehicle from the point where

electricity is introduced from the electrical outlet shall be recorded, and the vehicle

shall be brought to an immediate stop, thereby concluding the All-Electric Range

Test.

(4) Regenerative braking. Regenerative braking systems may be utilized

during the range test. The braking level, if adjustable, shall be set according to the

manufacturer's specifications prior to the commencement of the test. The driving

schedule speed and time tolerances specified in (2)shall not be exceeded due to the

operation of the regenerative braking system.

g. Determination of Battery Specific Energy for ZEVs.

Determine the specific energy of batteries used to power a ZEV in accordance

with the U.S. Advanced Battery Consortium’s Electric Vehicle Battery Procedure

Manual (January 1996), Procedure No. 2, “Constant Current Discharge Test

Series,” using the C/3 rate. The weight calculation must reflect a completely

functional battery system as defined in Appendix of the Manual, including pack(s),

required support ancillaries (e.g., thermal management), and electronic controller.

As Amended 8/5/99

9-17

h. Calculations; exhaust emissions

Amend paragraph 86.144-94 by adding the following subparagraph(b)(10) which

reads:

(10) Organic material non-methane hydrocarbon equivalent mass for

ethanol vehicles:

OMNMHCE = NMHC + (13.8756/32.042) x (CH OH) +

mass mass 3 mass

(13.8756/23.035) x (CH CH OH) + (13.8756/30.0262) x (HCHO) +

3 2 mass mass

(13.8756/22.027) x (CH CHO)

3 mass

As Amended 8/5/99

9-18

10. Optional 100,000 Mile Certification Procedure

The following provisions and alternate emission standards shown in section 3. of these

procedures shall apply to any engine family certified to the optional 100,000 mile certification

standards.

a. General Guidelines for Implementation

1. Designation

The manufacturer shall designate in the preliminary application for certification

those engine families that will be certified to the 100,000 mile procedures. In order to

allow the manufacturer as much flexibility as possible, the manufacturer may at any time

designate additional engine families or remove any designated engine family. Families

originally intended for 50,000 mile certification may be designated as 100,000 mile

families after the start of durability testing and vice versa. The Executive Officer must be

notified within ten working days of any such changes. Manufacturers are cautioned that

any engine family certified to the 100,000 mile certification procedure must comply with

the allowable maintenance provisions of section 10.b in these procedures during the engine

mileage accumulation.

2. Mileage Accumulation

All durability vehicles must be run to at least 50,000 miles for established emission

control systems; early termination of mileage accumulation may be requested by the

manufacturer if sufficient evidence as described below is provided to satisfy the Executive

Officer that further testing is unnecessary.

Testing beyond 50,000 miles must be conducted in accordance with the

certification test procedures applicable prior to 50,000 miles. Exhaust emissions tests

shall be performed at every 5,000 mile interval starting with the 55,000 mile point and

ending with the 100,000 mile point, and before and after all scheduled maintenance.

The Executive Officer may, upon request by the manufacturer waive any exhaust

emission testing beyond 50,000 miles, if he or she finds that (1) the extrapolated 100,000

mile points and interpolated 4,000 mile points on the least squares lines comply with the

line crossing provisions of section 10.b. of the procedures, and (2) the system and engine

designs, on the basis of previous engineering experience, would not be expected to exceed

the applicable standards after 100,000 miles. For example, a diesel vehicle that shows a

flat deterioration curve (D.F. = 1.0) for the first 50,000 miles and which is not equipped

with any add-on emission control system (such as EGR) may be eligible for such a waiver.

The Executive Officer will evaluate each request on a case-by-case basis. The

The additional criteria outlined in Section 6.a. (Mileage and Service Accumulation: Emission Measurements)

shall be used to determine the durability-data testing schedule and the emission-data 4,000 mile test point.

As Amended 8/5/99

10-1

manufacturer must submit its request to the Executive Officer to stop testing within ten

working days after the last emission test.

If a durability vehicle accumulates less than 100,000 miles the manufacturer shall

submit evidence that the engine is capable of meeting the applicable emission standards for

100,000 miles. Such evidence shall include engineering data on piston rings, piston,

valves, cylinder head, fuel system ignition system, etc., as applicable.

Any decision to stop mileage accumulation before 100,000 miles does not relieve

the manufacturer from its warranty and recall obligations.

For the last 50,000 miles, the Executive Officer may, upon the request of the

manufacturer, allow driving schedules different from the standard AMA driving cycle for

accelerated mileage accumulation and a reduced test frequency. The evaluation of

alternate test programs will be based on the type of emission control system involved and

the characteristic of the cumulative emission control system deterioration.

3. Scheduled Maintenance

A vehicle manufacturer who initially intends to certify a vehicle to the 50,000 mile

procedure may not change to the 100,000 mile option after mileage accumulation unless

the manufacturer starts initial mileage accumulation using, for each maintenance item, the

most stringent maintenance schedule of either the 100,000 mile option or the 50,000 mile

certification requirements.

4. Unscheduled Maintenance

The Executive Officer will follow the provisions of section 5.a of these procedures,

in evaluating any manufacturer's request for unscheduled maintenance. Manufacturers

shall obtain the Executive Officer's approval before performing any unscheduled emission

control component/system maintenance. In all cases, the degree of system degradation

must not be improved by any inspection or repairs. Emission tests must be performed

before and after all unscheduled maintenance and be used in the DF calculation.

5. Evaporative Compliance Criteria

If a manufacturer conducts evaporative emission testing (gasoline- and

alcohol-fueled vehicles only) in conjunction with exhaust durability testing, the vehicle

manufacturer is required to show compliance with the evaporative emission standard for

50,000 miles. If the manufacturer wishes to conduct testing beyond 50,000 miles, all data

must be submitted to the Executive Officer. The Executive Officer will not use any

evaporative emission standard. However, the manufacturer must warrant the evaporative

emission control system for 10 years or 100,000 miles.

As Amended 8/5/99

10-2

b. Specific Guidelines for Compliance

Each exhaust emission durability data vehicle shall be driven, with all emission

control systems installed and operating, for 100,000 miles or such lesser distance as the

Executive Officer may agree to as meeting the objectives of this procedure. Emission

tests performed on emission-data vehicles and durability-data vehicles (for determination

of the deterioration factors) shall be non-regeneration emission tests for diesel passenger

cars, light-duty trucks and medium-duty vehicles equipped with periodically regenerating

trap oxidizer systems. Compliance with the emission standards shall be established as

follows:

1. The linear regression line for all pollutants shall be established by use of all

required data from tests of the durability vehicle at every 5,000 mile interval from 5,000 to

100,000 miles. The requirements in subparagraph 86.088- 28(a)(4)(i)(B),

86.090-28(a)(4)(i)(B), and 86.091- 28(a)(4)(i)(B) (durability vehicles must meet emissions

standards) refer, for each pollutant, to the California 100,000 mile emission standards.

2. Compliance with the hydrocarbon and carbon monoxide standards shall be

determined as follows:

i. For Option 1:

A. The interpolated 4,000 and 50,000 mile points on the linear

regression line in section b.1. shall not exceed the appropriate hydrocarbon and

carbon monoxide standards, except as in B. below.

B. The linear regression line in section b.1. may exceed the standard

provided that no data point exceeds the standard.

C. The hydrocarbon and carbon monoxide data from the 4,000 mile test

point of the emission data vehicle shall be multiplied by the deterioration factor

computed by dividing the interpolated 50,000 mile point by the interpolated 4,000

mile point, and the appropriate exhaust emission correction factor (diesel

passenger cars, light-duty trucks, and medium-duty vehicles equipped with

periodically regenerating trap oxidizer systems only). These values shall not

exceed the appropriate hydrocarbon and carbon monoxide standards.

ii. For Option 2:

A. The interpolated 4,000 and 100,000 mile points on the linear

regression line in section b.1. shall not exceed the appropriate hydrocarbon and

carbon monoxide standards, except as in B. below.

B. The linear regression line in section b.1. may exceed the standard

provided that no data point exceeds the standard.

As Amended 8/5/99

10-3

C. The hydrocarbon and carbon monoxide data from the 4,000 mile test

point of the emission data vehicle shall be multiplied by the deterioration factor

computed by dividing the interpolated 100,000 mile point by the interpolated 4,000

mile point, and the appropriate exhaust emission correction factor (diesel

passenger cars, light-duty trucks, and medium-duty vehicles equipped with

periodically regenerating trap oxidizer systems only). These values shall not

exceed the appropriate 100,000 mile hydrocarbon and carbon monoxide standards.

3. Compliance with the oxides of nitrogen standard for Options 1 and 2 shall

be determined as follows:

i. the interpolated 4,000 and 100,000 mile points on the linear regression

line in section b.1. shall not exceed the appropriate 100,000 mile oxides of nitrogen

standard, except as in ii. below.

ii. the linear regression line in section b.1. may exceed the standard

provided that no data point exceeds the standard.

iii. the oxides of nitrogen data from the 4,000 mile test point of the

emission data vehicle shall be multiplied by the deterioration factor computed by

dividing the interpolated 100,000 mile point by the interpolated 4,000 mile point,

and the appropriate exhaust emission correction factor (diesel passenger cars,

light-duty trucks, and medium-duty vehicles equipped with periodically

regenerating trap oxidizer systems only). These values shall not exceed the

appropriate 100,000 mile oxides of nitrogen standard.

4. Compliance with the particulate standard for options 1 and 2 shall be

determined as follows:

i. the interpolated 4,000 and 50,000 mile points on the linear regression

line in section b.1. shall not exceed the appropriate particulate, except as in ii.

below.

ii. the linear regression line in section b.1. may exceed the standard

provided that no data point exceeds the standard.

iii. the particulate data from the 4,000 mile test point of the emission data

vehicle shall be multiplied by the deterioration factor computed by dividing the

interpolated 50,000 mile point by the interpolated 4,000 mile point, and the

appropriate exhaust emission correction factor (diesel passenger cars, light-duty

trucks, and medium-duty vehicles equipped with periodically regenerating trap

oxidizer systems only). These values shall not exceed the appropriate particulate

standard.

As Amended 8/5/99

10-4

5. All references in these test procedures to "useful life", 5 years, and 50,000

miles shall mean "total life", 10 years, and 100,000 miles, respectively, except in section

10.b.2.

c. Maintenance

Only the following scheduled maintenance shall be allowed under subparagraph

86.085-25 (a)(1)(i).

1. 25(a)(1)(i) Option 1. For 1988 model Otto-cycle or diesel vehicles, and

1989 and later model Otto-cycle or diesel light- duty trucks and medium-duty vehicles

3751 L.V.W. and greater, and 1993 and subsequent diesel light-duty trucks and medium-

duty vehicles 3751 L.V.W. and greater, maintenance shall be restricted to the inspection,

replacement, cleaning, adjustment, and/or service of the following items at intervals no

more frequent than indicated.

(1) Drive belt tension on engine accessories (30,000 miles).

(2) Valve lash (15,000 miles).

(3) Spark plugs (30,000 miles).

(4) Air filter (30,000 miles).

(5) Exhaust gas sensor (30,000 miles): Provided that:

(a) the manufacturer shall equip the vehicle with a maintenance indicator

consisting of a light or flag, which shall be preset to activate automatically by

illuminating in the case of a light or by covering the odometer in the case of a flag

the first time the minimum maintenance interval established during certification

testing is reached and which shall remain activated until reset. After resetting, the

maintenance indicator shall activate automatically when the minimum maintenance

interval, when added to the vehicle mileage at the time of resetting, is again

reached and shall again remain activated until reset. When the maintenance

indicator consists of a light, it shall also activate automatically in the engine-run

key position before engine cranking to indicate that it is functioning. The

maintenance indicator shall be located on the instrument panel and shall, when

activated, display the words "oxygen sensor" or may display such other words

determined by the Executive Officer to be likely to cause the vehicle owner to seek

oxygen sensor replacement. The maintenance indicator shall be separate from the

malfunction indicator light required by Section 1968, Title 13, California Code of

Regulations;

(b) the manufacturer shall provide free replacement of the oxygen sensor,

including both parts and labor, and shall reset the maintenance indicator without

any charge, the first time the maintenance interval established during certification

testing is reached for vehicles certified with scheduled sensor maintenance before

50,000 miles. If the oxygen sensor is replaced pursuant to the warranty provisions

of Section 2037, Title 13, California Code of Regulations, before the first

maintenance interval is reached, the manufacturer shall also replace the oxygen

As Amended 8/5/99

10-5

sensor and reset the maintenance indicator at the oxygen sensor and reset the

maintenance indicator at the mileage point determined by adding the maintenance

interval to the vehicle's mileage at the time of the warranty replacement. If the

calculated mileage point for a second oxygen sensor replacement would exceed

50,000 miles, no free second replacement shall be required;

instructions required by paragraph 5.b. of these procedures shall provide

instructions for the resetting of the maintenance indicator, and shall specify that the

maintenance indicator shall be reset each time the oxygen sensor is replaced; and

(d) notwithstanding the provisions of Section 2037(c), Title 13, California

Code of Regulations, the oxygen sensor, including any replacement required

pursuant to this section, shall be warranted for the applicable warranty period of

the vehicle or engine in accordance with Section 2037(a), Title 13, California Code

of Regulations. If such oxygen sensor fails during this period, it shall be replaced

by the manufacturer in accordance with Section 2037(d), Title 13, California Code

of Regulations.

(6) Choke, cleaning or lubrication only (30,000 miles).

(7) Idle speed (30,000 miles).

(8) Fuel Filter (30,000 miles).

(9) Injection timing (30,000 miles).

Option 2. For 1981-1988 and later model Otto-cycle vehicles or 1988 and later

diesel vehicles, maintenance shall be restricted to the inspection, replacement, cleaning,

adjustment, and/or service of the following items at intervals no more frequent than

indicated:

(1) Drive belt tension on engine accessories (30,000 miles).

(2) Valve lash (15,000 miles).

(3) Spark plugs (30,000 miles).

(4) Air filter (30,000 miles).

(5) Fuel Filter (30,000 miles).

(6) Idle speed (30,000 miles).

(7) Injection timing (30,000 miles).

2. In addition, adjustment of the engine idle speed (curb idle and fast idle),

valve lash, and engine bolt torque may be performed once during the first 5,000 miles of

scheduled driving, provided the manufacturer makes a satisfactory showing that the

maintenance will be performed on vehicles in use.

d. The manufacturer shall agree to apply to vehicles certified under this paragraph the

provision of Section 43204 of the California Health and Safety Code for a period of ten

years or 100,000 miles, whichever first occurs.

As Amended 8/5/99

10-6

As Amended 8/5/99

10-7

11. Additional Requirements

a. Alternative Durability Procedures. In order to qualify for the alternative

durability program, in addition to the requirements of paragraph 86.085-13, the algorithm

requirements of Appendix III shall be met and only the first 50,000 miles (or 100,000

miles, as applicable) of data or its equivalent shall be used.

b. High Altitude Requirements. For Otto-cycle vehicles or hybrid electric vehicles

which use Otto-cycle engines, evidence shall be supplied showing that the air/fuel metering

system or secondary air injection system is capable of providing sufficient oxygen to

theoretically allow enough oxidation to attain the CO emission standards at barometric

pressures equivalent to those expected at altitudes ranging from sea level to 6000 feet

elevations.

A vehicle will be deemed in compliance with the above requirement if the

manufacturer demonstrates that the tailpipe air/fuel ratio (TAFR) is, at elevations up to

6000 feet, stoichiometric or leaner in each of several driving modes. However, if a vehicle

operates in a given driving mode at sea level with a TAFR richer than stoichiometric, then

for that particular driving mode the manufacturer is only required to show that the TAFR

is, at elevations up to 6000 feet, no richer than the TAFR at sea level. The driving modes

selected for testing shall be representative of the full range of normal driving conditions,

and shall include the following three steady-state modes: idle, 30 mph road load cruise, 50

mph road load cruise. Assuming the use of dry air and indolene fuel (hydrogen to carbon

atom ratio of 1.85), a TAFR of 14.6 shall be considered a stoichiometric ratio. The

vehicle manufacturer may correct this value for different fuels and/or humidity, subject to

approval by the Executive Officer.

For fuel injected vehicles or hybrid electric vehicles which use fuel-injected

engines, compliance may be demonstrated upon a showing by the manufacturer that the

fuel injection system distributes fuel based on air mass flow, rather than volume flow, and

is therefore self-compensating. All submitted test proposals will be evaluated on their

acceptability by the Executive Officer.

As an alternative to the demonstration described above, a manufacturer may

demonstrate compliance by testing California vehicle configurations as part of its federal

high altitude certification requirements. Engine families which meet all the applicable

California low altitude emission standards when tested at the EPA test elevation are

deemed to be in compliance.

The Supplemental Federal Test Procedure standards do not apply to testing at high

altitude.

Exemptions to the high altitude provisions as allowed by the federal government in

86.087-8, 86.088-9, 86.090-8, 86.090-9, and 86.091-9 shall not be approved.

c. Highway Fuel Economy Test. The exhaust emissions shall be measured from all

exhaust emission data vehicles tested in accordance with the federal Highway Fuel

As Amended 8/5/99

11-1

Economy Test (HWFET; 40 CFR Part 600, Subpart B). The oxides of nitrogen emissions

measured during such tests shall be multiplied by the oxides of nitrogen deterioration

factor computed in accordance with paragraph 86.088-28, 86.090-28, and 86.091-28, and

then rounded and compared with the standard as set forth in section 3 preceding. All data

obtained pursuant to this paragraph shall be reported in accordance with procedures

applicable to other exhaust emissions data required pursuant to these procedures. Hybrid

electric vehicles shall be tested with the battery state-of- charge set such that one of the

following two conditions is satisfied: (1) the state-of-charge is at the lowest level allowed

by the control unit of the auxiliary power unit; or (2) the state-of-charge is set such that

auxiliary power unit operation will be at its maximum level at the beginning and

throughout the emission test.

In the event that one or more of the manufacturer's emission data vehicles fail the

HWFET standard listed in section 3, the manufacturer may submit to the Executive

Officer engineering data or other evidence showing that the system is capable of

complying with the standard. If the Executive Officer finds, on the basis of an engineering

evaluation, that the system can comply with the HWFET standard, he or she may accept

the information supplied by the manufacturer in lieu of vehicle test data.

d. Labeling Requirements. Labeling required pursuant to paragraph 86.088-35,

86.090-35, 86.091-35, 86.04-35, and 86.095-35, and Section 1965, Title 13 of the

California Code of Regulations shall conform with the requirements specified in the

"California Motor Vehicle Emission Control and Smog Index Label Specifications."

e. Driveability and Performance Requirements. The manufacturer shall submit to

the Executive Officer a statement that those vehicles for which certification is requested

have driveability and performance characteristics which satisfy that manufacturer's

customary driveability and performance requirements for vehicles sold in the United

States. This statement shall be based on driveability data and other evidence showing

compliance with the manufacturer's performance criteria. This statement shall be supplied

with the manufacturer's final application for certification, and with all running changes for

which emission testing is required.

If the Executive Officer has evidence to show that in-use vehicles demonstrate

poor performance that could result in wide-spread tampering with the emission control

systems, he or she may request all driveability data and other evidence used by the

manufacturer to justify the performance statement.

f. Malfunction and Diagnostic System Requirements. For all vehicles subject to

the provisions of Section 1968, or 1968.1, Title 13, California Code of Regulations, the

manufacturer shall submit with its application for certification a description of the

malfunction and diagnostic system to be installed on the vehicles. (The vehicles shall not

be certified unless the Executive Officer finds that the malfunction and diagnostic system

complies with the requirements of Section 1968 or 1968.1).

As Amended 8/5/99

11-2

g. Methanol and Formaldehyde Emission Testing. The provisions of the

incorporated federal test procedures which allow manufacturers to omit methanol and

formaldehyde emission testing of 1990 through 1994 methanol-fueled vehicles shall not be

applicable in California.

h. FFV Emission Testing. The following requirements shall apply to methanol and

ethanol fuel-flexible vehicles which are not certified to TLEV, LEV, ULEV, or SULEV

emission standards:

The emission testing required under 6.a.4.(D) (Fuel-flexible vehicle special

emission testing) shall be made part of the regular certification program and submitted to

the Executive Officer for review. Certification for methanol-fueled vehicles shall be

denied unless the exhaust emission values resulting from testing with 35-percent methanol

and 65-percent certification gasoline, or another approved methanol-gasoline blend, at the

required mileage intervals, and with certification gasoline at 5,000 miles, 50,000 miles and

the final mileage point, comply with the applicable standards. Certification for

ethanol-fueled vehicles shall be denied unless the exhaust emission values resulting from

testing with 10-percent ethanol and 90-percent certification gasoline, or another approved

ethanol-gasoline blend, at the required mileage intervals, and with certification gasoline at

5,000 miles, 50,000 miles and the final mileage point, comply with the applicable

standards.

i. Scope of Certification. Certification, if granted, is effective only for the

vehicle/engine family described in the original manufacturer's certification application.

Modifications by a secondary manufacturer to vehicles/engines shall be deemed not to

increase emissions above the standards under which those vehicles/engines were certified

and to be within the original certification if such modifications do not: (1) increase vehicle

weight more than 10 percent above the curb weight, increase frontal area more than 10

percent, or result in a combination increase of weight plus frontal area of more than 14

percent; or (2) include changes in axle ratio, tire size, or tire type resulting in changes in

the drive train ratio of more than 5 percent; or (3) include any modification to the emission

control system. No originally certified vehicle/engine which is modified by a secondary

manufacturer in a manner described in items (1) through (3) of the preceding sentence may

be sold to an ultimate purchaser, offered or delivered for sale to an ultimate purchaser, or

registered in California unless the modified vehicle/engine is certified by the state board in

accordance with applicable test procedures to meet emission standards for the model year

for which the vehicle/engine was originally certified.

For the purposes of this subsection, "secondary manufacturer" means any person,

other than the original manufacturer, who modifies a new motor vehicle prior to sale to

the ultimate purchaser.

j. Statement on Production Vehicles. A statement must be supplied that the

production vehicles shall be in all material respects the same as those for which

certification is granted.

As Amended 8/5/99

11-3

k. 50EF Emission Test Requirement. Following a 12 to 36 hour cold soak at a

nominal temperature of 50EF, emissions of CO and NOx measured on the Federal Test

Procedure (40 CFR Part 86), conducted at a nominal test temperature of 50EF, shall not

exceed the standards for vehicles of the same emission category and vehicle type subject

to a cold soak and emission test at 68 to 86EF. For all TLEVs, emissions of NMOG and

formaldehyde at 50EF shall not exceed the 50,000 mile certification standard multiplied by

a factor of 2.00. For all LEVs, emissions of NMOG and formaldehyde at 50EF shall not

exceed the 50,000 mile certification standard multiplied by a factor of 2.00. For all

ULEVs, emissions of NMOG and formaldehyde at 50EF shall not exceed the 50,000 mile

certification standard multiplied by a factor of 2.00. Emissions of NMOG shall be

multiplied by a reactivity adjustment factor, if any, prior to comparing with the 50,000

certification standard multiplied by the specified factor.

The test vehicles shall not be subject to a diurnal heat build prior to the cold start

exhaust test or evaporative emission testing.

i. For the 50EF emission test, the nominal preconditioning, soak, and test

temperatures shall be maintained within 3EF of the nominal temperature on an

average basis and within 5EF of the nominal temperature on a continuous basis.

The temperature shall be sampled at least once every 15 seconds during the

preconditioning and test periods and at least once each 5 minutes during the soak

period. A continuous strip chart recording of the temperature with these minimum

time resolutions is an acceptable alternative to employing a data acquisition

system.

ii. The test site temperature shall be measured at the inlet of the vehicle

cooling fan used for testing.

iii. The test vehicle may be fueled before the preconditioning procedure in a

fueling area maintained within a temperature range of 68 to 86EF. The

preconditioning shall be conducted at a nominal temperature of 50EF. The

requirement to saturate the evaporative control canister(s) shall not apply.

iv. If a soak area remote from the test site is used, the vehicle may pass

through an area maintained within a temperature range of 68 to 86E F during a

time interval not to exceed 10 minutes. In such cases, the vehicle shall be

restabilized to 50EF by soaking the vehicle in the nominal 50EF test area for six

times as long as the exposure time to the higher temperature area, prior to starting

the emission test.

v. The vehicle shall be approximately level during all phases of the test

sequence to prevent abnormal fuel distribution.

Manufacturers shall demonstrate compliance with this requirement each year by

testing at least three PC or LDT and three MDV emission data and/or engineering

development vehicles (with at least 4000 miles) which are representative of the array of

As Amended 8/5/99

11-4

technologies available in that model year. Only TLEVs, LEVs, and ULEVs are to be

considered for testing at 50EF. It is not necessary to apply deterioration factors (DFs) to

the 50EF test results to comply with this requirement. Testing at 50EF shall not be

required for fuel-flexible and dual-fuel vehicles when operating on gasoline. Natural gas,

hybrid electric and diesel-fueled vehicles shall also be exempt from 50EF testing.

The following schedule outlines the parameters to be considered for vehicle

selection:

1. Fuel control system (e.g., multiport fuel injection, throttle body electronic

fuel injection, sequential multiport electronic fuel injection, etc.)

2. Catalyst system (e.g., electrically heated catalyst, close-coupled catalyst,

underfloor catalyst, etc.)

3. Control system type (e.g., mass-air flow, speed density, etc.)

4. Vehicle category (e.g., TLEV, LEV, ULEV)

5. Fuel type (e.g., gasoline, methanol, etc.)

The same engine family shall not be selected in the succeeding two years unless the

manufacturer produces fewer than three engine families. If the manufacturer produces

more than three TLEV, LEV, or ULEV engine families per model year, the Executive

Officer may request 50EF testing of specific engine families. If the manufacturer provides

a list of the TLEV, LEV, and ULEV engine families that it will certify for a model year

and provides a description of the technologies used on each engine family (including the

information in items 1 through 5 of the vehicle selection parameters listed above), the

Executive Officer shall select the engine families subject to 50EF testing within a 30 day

period after receiving such a list and description. The Executive Officer may revise the

engine families selected after the 30 day period if the information provided by the

manufacturer does not accurately reflect the engine families actually certified by the

manufacturer.

l. Emission Control System Continuity at Low Temperature. For each engine

family certified to TLEV, LEV, ULEV, or SULEV standards, manufacturers shall submit

with the certification application, an engineering evaluation demonstrating that a

discontinuity in emissions of non-methane organic gases, carbon monoxide, oxides of

nitrogen and formaldehyde measured on the Federal Test Procedure (40 CFR Part 86)

does not occur in the temperature range of 20 to 86EF. For diesel vehicles, the

engineering evaluation shall also include particulate emissions.

As Amended 8/5/99

11-5

12. Identification of New Clean Fuels to be Used in Certification Testing

Any person may petition the state board to establish by regulation certification

testing specifications for a new clean fuel for which specifications for a new clean fuel are

not specifically set forth in paragraph 86.113-90 as amended herein. Prior to adopting

such specifications, the state board shall consider the relative cost-effectiveness of use of

the fuel in reducing emissions compared to the use of other fuels. Whenever the state

board adopts specifications for a new clean fuel for certification testing, it shall also

establish by regulation specifications for the fuel as it is sold commercially to the public.

(a) If the proposed new clean fuel may be used to fuel existing motor vehicles,

the state board shall not establish certification specifications for the fuel unless the

petitioner has demonstrated that:

(1) Use of the new clean fuel in such existing motor vehicles would not

increase emissions of NMOG (on a reactivity-adjusted basis), NOx, CO, and the

potential risk associated with toxic air contaminants, as determined pursuant to the

procedures set forth in "California Test Procedures for Evaluating Substitute Fuels

and New Clean Fuels." In the case of fuel-flexible vehicles or dual-fuel vehicles

which were not certified on the new clean fuel but are capable of being operated

on it, emissions during operation with the new clean fuel shall not increase

compared to emissions during vehicle operation on gasoline.

(2) Use of the new clean fuel in such existing motor vehicles would not

result in increased deterioration of the vehicle and would not void the warranties of

any such vehicles.

(b) Whenever the state board designates a new clean fuel pursuant to this

section, the state board shall also establish by regulation required specifications for the

new clean fuel.

As Amended 8/5/99

12-1

13. Reactivity Adjustment Factors

For the purpose of complying with the NMOG exhaust emission standards in Section

1960.1, Title 13, California Code of Regulations, the mass of NMOG emissions from a vehicle

certified to operate on a fuel other than conventional gasoline, including fuel-flexible and dual-fuel

vehicles when operated on a fuel other than conventional gasoline, shall be multiplied by the

reactivity adjustment factor applicable to the vehicle emission control technology category and

fuel. The product of the NMOG mass emission value and the reactivity adjustment factor shall be

compared to the NMOG exhaust emission standards to determine compliance with the standards.

In addition to the above requirements, vehicles operating on natural gas shall add to the product

of the NMOG mass emission value and the reactivity adjustment factor, the product of the

methane mass emission value and the methane reactivity adjustment factor. This result shall be

compared to the NMOG exhaust emission standards to determine compliance with the standards

for natural gas-fueled vehicles.

a. The following reactivity adjustment factors have been established pursuant to the

criteria in Appendix VIII of these test procedures:

1. Passenger cars and light-duty trucks 0-5750 lbs. LVW and all

medium-duty vehicles 0-14,000 TW

Reactivity

Vehicle Emission Control Adjustment Technology Category

Fuel Factor

1993 and subsequent model- 85% methanol, 15%

year TLEVs gasoline blends 0.41

1993 -2000 model-year LEVs 85% methanol, 15%

and ULEVs gasoline blends 0.41

1993 through 2000 gasoline meeting the

model-year TLEVs specifications of section

9.a.1.(ii) of these test procedures 0.98

1993 through 2000 gasoline meeting the

model-year LEVs and ULEVs specifications of section

9.a.1.(ii) of these test procedures 0.94

1993 through 2000 fuel meeting the specifications 1.00

model-year TLEVs of section 9.a.13.(g)(1) of these

test procedures (liquefied petroleum gas)

1993 through 2000 fuel meeting the specifications 0.50

model-year LEVs and ULEVs of section 9.a.13.(g)(1) of these

test procedures (liquefied petroleum gas)

As Amended 8/5/99

13-1

1993 through 2000 fuel meeting the specifications 1.00

model-year TLEVs of section 9.a.13.(g)(2) of these

test procedures (natural gas)

1993 through 2000 fuel meeting the specifications 0.43

model-year LEVs and ULEVs of section 9.a.13.(g)(2) of these

test procedures (natural gas)

2. Natural gas passenger cars and light-duty trucks 0-5750 lbs. LVW

Vehicle Emission Control Methane Reactivity Technology

Category Adjustment Factor

1993 and subsequent model-year TLEVs 0.0043

1993 and subsequent model-year LEVs and ULEVs 0.0047

3. Natural gas medium-duty vehicles 0-8500 lbs. TW

Vehicle Emission Control Methane Reactivity Technology

Category Adjustment Factor

1995 and subsequent model-year LEVs and ULEVs 0.0047

b. The Executive Officer may establish by executive order new reactivity adjustment

factors pursuant to Appendix VIII of these test procedures in addition to those listed in

Section 13.a. The Executive Officer shall notify manufacturers in writing of the new

reactivity adjustment factors within 30 days of their establishment.

c. The Executive Officer may revise any reactivity adjustment factor listed in Section

13.a. or established by the Executive Officer pursuant to Appendix VIII of these test

procedures if he or she determines that the revised reactivity adjustment factor is more

representative of the ozone-forming potential of vehicle NMOG emissions based on the

best available scientific knowledge and sound engineering judgment. The Executive

Officer shall notify manufacturers in writing of any such reactivity adjustment factor at

least 3 years prior to January 1 of the calendar year which has the same numerical

designation as the model year for which the revised reactivity- adjustment factor first

becomes effective. However, manufacturers may use the revised reactivity adjustment

factor in certifying any new engine family whose certification application is submitted

following such notification, if they so choose. Manufacturers may also continue to use the

original reactivity adjustment factor for any existing engine family previously certified with

that reactivity adjustment factor until a new durability-data vehicle is tested for that engine

family.

d. Manufacturers may request the use of a unique reactivity adjustment factor for a

specific vehicle emission control technology category and fuel. The Executive Officer

As Amended 8/5/99

13-2

shall approve such requests in accordance with the conditions and procedures of Appendix

VIII of these test procedures. For the purpose of calculating the reactivity adjustment

factor as specified in Appendix VIII, the 'g ozone potential per g NMOG' value for the

vehicle emission control technology category and fuel system for which the manufacturer

is requesting the use of a unique reactivity adjustment factor shall be divided by the 'g

ozone potential per g NMOG' value for a conventional gasoline-fueled vehicle established

for the vehicle emission control technology category. The following 'g ozone potential per

g NMOG' values for conventional gasoline-fueled vehicle emission control technology

categories have been established:

1. Passenger cars and light-duty trucks 0-5750 lbs. LVW

Vehicle Emission Control 'g ozone potential per g

Technology Category NMOG' for conventional gasoline

All TLEVs 3.42

All 1993 and subsequent

model-year LEVs and ULEVs 3.13

2. Medium-Duty Vehicles 0-8500 lbs. TW

All 1993 and subsequent model year LEVs and ULEVs 3.13

As Amended 8/5/99

13-3

14. Cold Temperature Test Procedure

a. General Applicability

In paragraph 86.201-94:

1. Amend subparagraph (a) to read:

(a) This subpart describes procedures for determining the cold temperature

carbon monoxide (CO) emissions from 1996 and later model year new passenger

cars, light-duty trucks, and medium-duty vehicles (excluding natural gas vehicles,

diesel-fueled vehicles, hybrid electric vehicles, and zero-emission vehicles).

b. Equipment Required; Overview

In paragraph 86.206.94:

1. Amend subparagraph (a) to read:

(a) This subpart contains procedures for exhaust emission tests on

passenger cars, light-duty trucks, and medium-duty vehicles (excluding natural gas

vehicles, diesel-fueled vehicles, hybrid electric vehicles, and zero-emission

vehicles.) Equipment required and specifications are as follows:

2. Amend subparagraph (a)(1) to read:

(a)(1) Exhaust emission tests. Exhaust from vehicles (excluding natural

gas vehicles, diesel-fueled vehicles, hybrid electric vehicles, and zero-emission

vehicles) is tested for gaseous emissions using the Constant Volume Sampler

(CVS) concept (Section 86.209). Equipment necessary and specifications appear

in 40 CFR Part 86, Section 86.208 through 86.214.

3. Amend subparagraph (a)(2) to read:

(a)(2) Fuel, analytical gas, and driving schedule specifications. Fuel

specifications for exhaust emission testing for gasoline-fueled vehicles are specified

in 40 CFR Part 86, Section 86.213. Fuel specifications for exhaust emission

testing for alcohol-fueled vehicles and liquefied petroleum gas vehicles are

specified in Section 9.a. of these Test Procedures. Analytical gases are specified in

40 CFR Part 86, Section 86.214. The EPA Urban Dynamometer Driving Schedule

(UDDS) for use in emission tests is specified in 40 CFR Part 86, Section 86.215

and Appendix I.

As Amended 8/5/99

14-1

APPENDIX I

List of Sections of Subparts A, B, and C,

Part 86, Title 40, Code of Federal Regulations, Incorporated by Reference

This Appendix sets forth the sections of Subparts A, B, and C, Part 86, Title 40, Code of

Federal Regulations, as adopted or amended by the U.S. Environmental Protection Agency (EPA)

on the date listed for each section, which are incorporated by reference in "California Exhaust

Emission Standards and Test Procedures for 1988 and Subsequent Model Passenger Cars,

Light-Duty Trucks, and Medium-Duty Vehicles."

Subpart A - General Provisions for Emission Regulations for 1977 and Later

Model Year New Light-Duty Vehicles, Light-Duty Trucks, and Heavy-Duty Engines,

and for 1985 and Later Model Year New Gasoline-Fueled and Methanol-Fueled

Heavy-Duty Vehicles.

86.085-1 General applicability. July 7, 1986.

86.090-1 General applicability. April 11, 1989.

86.082-2 Definitions. November 2, 1982.

86.084-2 Definitions. December 10, 1984.

86.085-2 Definitions. November 26, 1983.

86.088-2 Definitions. March 15, 1985.

86.090-2 Definitions. April 11, 1989.

86.000-2 Definitions. October 22, 1996.

86.078-3 Abbreviations. January 21, 1980.

86.090-3 Abbreviations. April 11, 1989.

86.094-3 Abbreviations. June 30, 1995.

86.096-3 Abbreviations. November 1, 1993.

86.098-3 Abbreviations. April 6, 1994.

86.000-3 Abbreviations. October 22, 1996.

86.084-4 Section numbering; construction. September 25, 1980.

86.084-5 General standards; increase in emissions; unsafe conditions. November 2, 1982.

86.090-5 General standards; increase in emissions; unsafe conditions. April 11, 1989.

86.078-7 Maintenance of records; submitted information; right of entry. November 1, 1982.

86.087-8 Emission standards for 1987 light-duty vehicles. January 24, 1984.

86.090-8 Emission standards for 1990 and later model year light-duty vehicles. April 11, 1989.

86.000-8 Emission standards for 2000 and later model year light-duty vehicles. October 22, 1996.

86.088-9 Emission standards for 1988 and later model year light-duty trucks. October 31, 1988.

86.000-9 Emission standards for 2000 and later model year light-duty vehicles. October 22, 1996.

86.080-12 Alternative certification procedures. April 17, 1980.

86.085-13 Alternative durability program. May 19, 1983.

86.084-14 Small-volume manufacturer certification procedures. January 31, 1985.

86.090-14 Small-volume manufacturer certification procedures. April 11, 1989.

86.092-14 Small-volume manufacturer certification procedures. February 28, 1990.

86.095-14 Small-volume manufacturer certification procedures. June 5, 1991.

86.094-16 Prohibition of defeat devices. July 17, 1992.

As Amended 8/5/99

I-1

86.000-16 Prohibition of defeat devices. October 22, 1996.

86.085-20 Incomplete vehicles. January 12, 1983.

86.088-21 Application for certification. March 15, 1985.

86.090-21 Application for certification. April 11, 1989.

86.091-21 Application for certification. April 11, 1989.

86.094-21 Application for certification. July 17, 1992.

86.096-21 Application for certification. June 30, 1995.

86.098-21 Application for certification. June 30, 1995.

86.000-21 Application for certification. October 22, 1996.

86.085-22 Approval of application for certification; test fleet selection, etc. July 7, 1986.

86.090-22 Approval of application for certification; test fleet selection, etc. April 11, 1989.

86.094-22 Approval of application for certification; test fleet selection, etc. July 17, 1992.

86.088-23 Required data. July 19, 1985.

86.090-23 Required data. April 11, 1989.

86.091-23 Required data. July 26, 1990.

86.094-23 Required data. June 5, 1991.

86.095-23 Required data. March 25, 1994.

86.096-23 Required data. March 24, 1993.

86.098-23 Required data. April 6, 1994.

86.000-23 Required data. October 22, 1996.

86.085-24 Test vehicles and engines. January 31, 1985.

86.090-24 Test vehicles and engines. April 11, 1989.

86.092-24 Test vehicles and engines. July 26, 1990.

86.094-24 Test vehicles and engines. July 17, 1992.

86.095-24 Test vehicles and engines. July 17, 1992.

86.096-24 Test vehicles and engines. November 1, 1993.

86.098-24 Test vehicles and engines. April 6, 1994.

86.000-24 Test vehicles and engines. October 22, 1996.

86.085-25 Maintenance. July 7, 1986.

86.087-25 Maintenance. July 7, 1986.

86.088-25 Maintenance. July 7, 1986.

86.090-25 Maintenance. April 11, 1989.

86.084-26 Mileage and service accumulation; emission measurements. July 7, 1986.

86.090-26 Mileage and service accumulation; emission requirements. April 11, 1989.

86.085-27 Special test procedures. January 12, 1983.

86.090-27 Special test procedures. April 11, 1989.

86.088-28 Compliance with emission standards. July 7, 1986.

86.090-28 Compliance with emission standards. April 11, 1989.

86.091-28 Compliance with emission standards. July 17, 1992.

86.094-28 Compliance with emission standards. January 12, 1993.

86.098-28 Compliance with emission standards. September 21, 1994.

86.000-28 Compliance with emission standards. October 22, 1996.

86.088-29 Testing by the Administrator. March 15, 1985.

86.090-29 Testing by the Administrator. April 11, 1989.

86.091-29 Testing by the Administrator. April 11, 1989.

86.088-30 Certification. January 24, 1984.

As Amended 8/5/99

I-2

86.090-30 Certification. July 26, 1990.

86.091-30 Certification. July 26, 1990.

86.094-30 Certification. June 5, 1991.

86.095-30 Certification. June 5, 1991.

86.079-31 Separate certification. September 8, 1977.

86.079-32 Addition of a vehicle or engine after certification. September 8, 1977.

86.079-33 Changes to a vehicles or engine covered by certification. September 8, 1977.

86.082-34 Alternative procedures for notification of addition and changes. November 2, 1982.

86.088-35 Labeling. March 15, 1985.

86.090-35 Labeling. April 11, 1989.

86.091-35 Labeling. April 11, 1989.

86.094-35 Labeling. July 17, 1992.

86.095-35 Labeling. July 17, 1992.

86.079-36 Submission of vehicle identification numbers. November 14, 1978.

86.085-37 Production vehicles and engines. January 12, 1983.

86.085-38 Maintenance instructions. November 16, 1983.

86.087-38 Maintenance instructions. July 7, 1986.

86.079-39 Submission of maintenance instructions. September 8, 1977.

86.084-40 Automatic expiration of reporting and record keeping requirements. September 25, 1980.

Subpart B-Emission Regulations for 1977 and Later Model Year New Light-Duty

Vehicles and New Light-Duty Trucks; Test Procedures.

86.101 General applicability. June 28, 1977.

86.102 Definitions. March 5, 1980.

86.103 Abbreviations. March 5, 1980.

86.104 Section numbering, construction. April 11, 1989.

86.105 Introduction; structure of subpart. April 11, 1989.

86.106-82 Equipment required; overview. March 5, 1980.

86.106-90 Equipment required; overview. April 11, 1989.

86.106-94 Equipment required; overview. June 5, 1991.

86.106-96 Equipment required; overview. September 21, 1994.

86.106-00 Equipment required; overview. October 22, 1996.

86.107-78 Sampling and analytical system, evaporative emissions. June 28, 1977.

86.107-90 Sampling and analytical system, evaporative emissions. April 11, 1989.

86.108-79 Dynamometer. September 12, 1977.

86.108-00 Dynamometer. October 22, 1996.

86.109-82 Exhaust gas sampling system; gasoline-fueled vehicles. March 5, 1980.

86.109-90 Exhaust gas sampling system; Otto-cycle vehicles. April 11, 1989.

86.109-94 Exhaust gas sampling system; Otto-cycle vehicles not requiring particulate emission

measurements. June 5, 1991.

86.110-82 Exhaust gas sampling system; diesel vehicles. October 13, 1981.

86.110-90 Exhaust gas sampling system; diesel vehicles. April 11, 1989.

86.110-94 Exhaust gas sampling system; diesel vehicles. June 5, 1991.

86.111-82 Exhaust gas analytical-system. March 5, 1980.

As Amended 8/5/99

I-3

86.111-90 Exhaust gas analytical-system. April 11, 1989.

86.111-94 Exhaust gas analytical-system. June 5, 1991.

86.112-82 Weighing chamber (or room) and microgram balance specifications. March 5, 1980.

86.112-91 Weighing chamber (or room) and microgram balance specifications. June 5, 1991.

86.113-90 Fuel Specifications. April 11, 1989.

86.113-91 Fuel Specifications. August 21, 1990.

86.113-94 Fuel Specifications. August 21, 1990.

86.114-79 Analytical gases. November 14, 1978.

86.114-94 Analytical gases. June 5, 1991.

86.115-78 EPA urban dynamometer driving schedules. June 28, 1977.

86.115-00 EPA urban dynamometer driving schedules. October 22, 1996.

86.116-82 Calibrations, frequency and overview. March 5, 1980.

86.116-90 Calibrations, frequency and overview. April 11, 1989.

86.117-78 Evaporative emission enclosure calibrations. June 28, 1977.

86.117-90 Evaporative emission enclosure calibrations. April 11, 1989.

86.118-78 Dynamometer calibration. June 28, 1977.

86.118-00 Dynamometer calibration. October 22, 1996.

86.119-78 CVS calibration. June 28, 1977.

86.119-90 CVS calibration. April 11, 1989.

86.120-82 Gas meter or flow instrumentation calibration, particulate measurement. March 5, 1980.

86.121-82 Hydrocarbon analyzer calibration. March 5, 1980.

86.121-90 Hydrocarbon analyzer calibration. April 11, 1989.

86.122-78 Carbon monoxide analyzer calibration. June 28, 1977.

86.123-78 Oxides of nitrogen analyzer calibration. September 12, 1977.

86.124-78 Carbon dioxide analyzer calibration. June 28, 1977.

86.126-78 Calibration of other equipment. June 28, 1977.

86.126-90 Calibration of other equipment. April 11, 1989.

86.127-82 Test procedures; overview. March 5, 1980.

86.127-90 Test procedures; overview. April 11, 1989.

86.127-00 Test procedures; overview. October 22, 1996.

86.128-79 Transmission. November 14, 1978.

86.128-00 Transmission. October 22, 1996.

86.129-80 Road load power test weight and inertia weight class determination. November 14, 1978.

86.129-94 Road load power test weight and inertia weight class determination. June 5, 1991.

86.129-00 Road load power test weight and inertia weight class determination. October 22, 1996.

86.130-78 Test sequence; general requirements. June 28, 1977.

86.130-00 Test sequence; general requirements. October 22, 1996.

86.131-78 Vehicle preparation. June 28, 1977.

86.131-90 Vehicle preparation. April 11, 1989.

86.131-00 Vehicle preparation. October 22, 1996.

86.132-82 Vehicle preconditioning. March 5, 1980.

86.132-90 Vehicle preconditioning. April 11, 1989.

86.132-96 Vehicle preconditioning. September 21, 1994.

86.132-00 Vehicle preconditioning. October 22, 1996.

86.133-78 Diurnal breathing loss test. November 16, 1983.

86.133-90 Diurnal breathing loss test. April 11, 1989.

As Amended 8/5/99

I-4

86.135-82 Dynamometer procedure. December 10, 1984.

86.135-90 Dynamometer procedure. April 11, 1989.

86.135-00 Dynamometer procedure. October 22, 1996

86.136-82 Engine starting and restarting. March 5, 1980.

86.136-90 Engine starting and restarting. April 11, 1989.

86.137-82 Dynamometer test run, gaseous and particulate emissions. March 5, 1980.

86.137-90 Dynamometer test run, gaseous and particulate emissions. April 11, 1989.

86.138-78 Hot soak test. June 28, 1977.

86.138-90 Hot soak test. April 11, 1989.

86.139-82 Diesel particulate filter handling and weighing. March 5, 1980.

86.139-90 Diesel particulate filter handling and weighing. April 11, 1989.

86.140-82 Exhaust sample analysis. March 5, 1980.

86.140-90 Exhaust sample analysis. April 11, 1989.

86.142-82 Records required. March 5, 1980.

86.142-90 Records required. April 11, 1989.

86.143-78 Calculations; evaporative emissions. June 28, 1977.

86.143-90 Calculations; evaporative emissions. April 11, 1989.

86.144-78 Calculations; exhaust emissions. December 10, 1984.

86.144-90 Calculations; exhaust emissions. April 11, 1989.

86.144-94 Calculations; exhaust emissions. July 5, 1991.

86.145-82 Calculations; particulate emissions. October 13, 1981.

86.158-00 Supplemental Federal Test Procedures; overview. October 22, 1996.

86.159-00 Exhaust emission test procedures for US06 emissions. October 22, 1996.

86.160-00 Exhaust emission test procedure for SC03 emissions. October 22, 1996.

86.161-00 Air conditioning environmental test facility ambient requirements. October 22, 1996.

86.162-00 Approval of alternative air conditioning test simulations and descriptions of AC1 and AC2.

October 22, 1996.

86.162-03 Approval of alternative air conditioning test simulations. October 22, 1996.

86.163-00 Spot check correlation procedures for vehicles tested using a simulation of the

environmental test cell for air conditioning emission testing. October 22, 1996.

86.164-00 Supplemental federal test procedure calculations. October 22, 1996.

Subpart C-Emission Regulations for 1994 and Later Model Year Gasoline-Fueled

New Light-Duty Vehicles and New Light-Duty Trucks; Cold Temperature Test

Procedures.

86.201-94 General applicability. July 17, 1992.

86.202-94 Definitions. July 17, 1992.

86.203-94 Abbreviations. July 17, 1992.

86.204-94 Section number construction. July 17, 1992.

86.205-94 Introduction; structure of subpart. July 17, 1992.

86.206-94 Equipment required; overview. July 17, 1992.

86.208-94 Dynamometer. July 17, 1992.

86.209-94 Exhaust gas sampling system; gasoline-fueled vehicles. July 17, 1992.

86.211-94 Exhaust gas analytical system. July 17, 1992.

86.213-94 Fuel specifications. July 17, 1992.

As Amended 8/5/99

I-5

86.214-94 Analytical gases. July 17, 1992.

86.215-94 EPA urban dynamometer driving schedule. July 17, 1992.

86.216-94 Calibrations, frequency and overview. July 17, 1992.

86.218-94 Dynamometer calibration. July 17, 1992.

86.219-94 CVS calibration. July 17, 1992.

86.221-94 Hydrocarbon analyzer calibration. July 17, 1992.

86.222-94 Carbon monoxide analyzer calibration. July 17, 1992.

86.223-94 Oxides of nitrogen analyzer calibration. July 17, 1992.

86.224-94 Carbon dioxide analyzer calibration. July 17, 1992.

86.226-94 Calibration of other equipment. July 17, 1992.

86.227-94 Test procedures; overview. July 17, 1992.

86.228-94 Transmissions. July 17, 1992.

86.229-94 Road load force, test weight, and inertia weight class determination. July 17, 1992.

86.230-94 Test Sequence; general requirements. July 17, 1992.

86.231-94 Vehicle Preparation. July 17, 1992.

86.232-94 Vehicle Preconditioning. July 17, 1992.

86.235-94 Dynamometer procedure. July 17, 1992.

86.236-94 Engine starting and restarting. July 17, 1992.

86.237-94 Dynamometer test run, gaseous emissions. July 17, 1992.

86.240-94 Exhaust sample analysis. July 17, 1992.

86.242-94 Records required. July 17, 1992.

86.244-94 Calculations; exhaust emissions. July 17, 1992.

86.246-94 Intermediate temperature testing. July 17, 1992.

Appendix I to Part 86--Urban Dynamometer Schedules. October 22, 1996.

As Amended 8/5/99

I-6

APPENDIX II

Exhaust Emission-Data Vehicle Selection Criteria

For Passenger Cars, Light-Duty Trucks and Medium-Duty Vehicles

I. Selection of Exhaust Emission-Data Vehicles (see flow diagram on page II-4)

A. Item 1 of the attached emission-data vehicle selection worksheet (page II-5) shall

be prepared with the highest projected sales engine displacement-system combination first and the

remainder in order of decreasing projected sales volume.

B. For engine families with a single engine displacement-exhaust emission control

system combination representing 70 percent or more of the projected sales.

1. The first vehicle selection will be determined as follows:

a. The engine displacement-exhaust emission control system combination

shall be the one with the highest projected sales. (Item 1, on worksheet.)

b. Using the data entered in Item 2 of the worksheet and the formula

shown below, the equivalent test weight of the vehicle is determined from the calculated

sales weighted equivalent test weight for that engine displacement-exhaust emission

control system combination.

Sales Weighted Test Weight (SWTW)

Determine the sales weighted test weight as follows:

= Test weight of i'th class

= Sales volume of i'th class

N = Number of test weight classes

i'1

SWTW '

i'1

Select the equivalent test weight that includes the calculated SWTW. If the SWTW is exactly

between two equivalent test weights, select the higher equivalent test weight. Similarly, if there

are no vehicles with the desired displacement-exhaust emission control system combination in the

same equivalent test weight that includes the calculated SWTW, the next higher equivalent test

weight that contains such a vehicle will be specified.

As Amended 8/5/99

II-1

c. The transmission will be the class with the highest sales for the engine

displacement-exhaust emission control system combination (Item 3, worksheet). If the

highest sales transmission class is not available in the equivalent test weight determined in

(b), above, the next higher equivalent test weight with the highest sales transmission class

will be selected. If manual transmissions are the highest selling class, the transmission

configuration with the highest sales should generally be selected (Item 4, worksheet). If

the manufacturer wishes to test a vehicle with an M-4 transmission both as an M-4 vehicle

and an M-3 vehicle, use of the vehicle with an M-4 transmission will be allowed provided

the first three gear ratios are identical in both transmissions. Similarly, use of an M-5 will

be allowed to represent both an M-5 vehicle and an M-4 vehicle, providing the first four

gear ratios are identical in both transmissions.

d. The highest selling engine code within the engine displacement-exhaust

emission control system-equivalent test weight-transmission class combination will be

specified (Item 5, worksheet). If air conditioning is projected to be available on any

vehicles within the engine family, only engine codes which have air conditioning available

will be considered.

e. The highest selling body style within the engine displacement-exhaust

emission control system-equivalent test weight-transmission class-engine code

combination will be specified (Item 6, worksheet.)

f. The N/V ratio will be the standard ratio (standard tire and axle ratio

combination) for the vehicle selected (Item 7, worksheet).

g. Standard or optional equipment, except air conditioning equipment, that

can reasonably be expected to influence emissions (Item 8, worksheet) and is expected to

be installed on more than 33 percent of the vehicles in the car line within the

engine-system combination shall be specified (and the full estimated weight of those items

should be included in the curb weight computation) unless an item is not available on the

particular vehicle specified. If air conditioning is projected to be available on any vehicles

within the engine family, it shall be specified (and the full estimated weight of the unit

should be included in the curb weight computation.) Other standard or optional

equipment expected to be installed on more than 33 percent of the vehicles in the car line

within the engine-system combination shall have their full estimated weight included in the

curb weight computation and be included in the specified vehicle's weight. Overdrive

units are considered transmission configurations and not items of optional equipment. The

weight of an overdrive unit should be included in the curb weight computation of vehicles

with such units. (In other words, the weight of overdrive units should not be disregarded

when car line sales of such items are 33 percent or less.)

2. The second vehicle will be determined as follows.

a. The transmission class, from Item 3 of worksheet, with the second

highest sales will be specified if this transmission class has projected sales of more than 30

percent of the engine displacement-exhaust emission control system combination. The

As Amended 8/5/99

II-2

equivalent test weight, engine code body style, N/V ratio, and optional equipment

specified for the second vehicle are determined by criteria in Section 1.

b. If the second transmission class does not meet the criteria of 2.a. above,

the second vehicle will be the worst case vehicle selected from the family.

c. For engine families with multiple displacement-emission control system

combinations, the first vehicle selection will be highest sales combination, and the second

vehicle selection will be second highest sales combination. Other vehicle configuration

details will be as in Section B.1.b. through B.1.g.

d. An exception to the two maximum emission-data vehicles may occur for

engine families with vehicles in multiple standard classifications, i.e., loaded vehicle weight

classifications for light-duty trucks and/or medium-duty vehicles. The first vehicle

selection will be determined as above in B.1. in the highest sales loaded vehicle weight

classification, and the subsequent vehicle selection(s) will be a worst case vehicle(s) in the

other loaded vehicle weight classification(s).

C. For determining cold temperature CO exhaust emission compliance for each

engine family, the Executive Officer shall select for testing the vehicle expected to emit the

highest emissions from the vehicles selected in accordance with sections I.A. and I.B. of this

Appendix. The selected vehicle shall be tested by the manufacturer in accordance with the test

procedures in Subpart C, Part 86, Title 40, Code of Federal Regulations or with alternative

procedures requested by the manufacturer and approved in advance by the Executive Officer.

As Amended 8/5/99

II-3

INSERT FLOW DIAGRAM FOR SELECTING ARB PC, LDT, AND MDV EXHAUST

EMISSION-DATA VEHICLES

As Amended 8/5/99

II-4

Emission-Data Vehicle Selection Worksheet

Manufacturer Date __________

Engine Family

1. Vehicle Selection

Engine Emission Control

Displacement System Unit Percent Cumulative%

a) __________ ____________ ____ _____ ________

b) __________ ____________ ____ _____ ________

c) __________ ____________ ____ _____ ________

d) __________ ____________ ____ _____ ________

2. Sales Weighted Test Weight

Total projected sales:

Test Weight - lb. Sales Volume

a) ____________________ __________________

b) ____________________ __________________

c) ____________________ __________________

d) ____________________ __________________

Calculated SWTW lbs. Equivalent Test Weight lbs.

3. Transmission Selection

Sales Percentage High

Class Volumes Sales Sales

a) ___________ ___________ ___________ ______

b) ___________ ___________ ___________ ______

4. Transmission Configuration

Sales High

Configuration Volumes Sales

a) ________________ ______________ _______

b) ________________ ______________ _______

c) ________________ ______________ _______

As Amended 8/5/99

II-5

Sales High

5. Engine Code (within 1, 2, 3, and 4 above) Volumes Sales

a) __________________________________ _________ ________

b) __________________________________ _________ ________

c) __________________________________ _________ ________

d) __________________________________ _________ ________

Sales High

6. Body Style (within 1, 2, 3, 4, and 5 above) Volumes Sales

a) __________________________________ _________ ________

b) __________________________________ _________ ________

c) __________________________________ _________ ________

d) __________________________________ _________ ________

e) __________________________________ _________ ________

f) __________________________________ _________ ________

7. STD Axle STD N/V .

8. Options over 33 percent

9. Second and Subsequent Selections Vehicles

a) High Sales Engine Displacement-Exhaust Emission Control System______

b) Second-Highest Selling Transmission Class_______________________

Designated Second and Subsequent Selections Vehicles

Eng. Evap.

Disp. Code Code Model Trans. ETW Axle N/V

As Amended 8/5/99

II-6

APPENDIX III

Determination of Acceptable Durability Test Schedule

A manufacturer may determine mileage test intervals for durability-data vehicles subject to

the conditions specified in 40 CFR 86.084-26 or 86.090-26. The following procedure shall be

used to determine if the schedule is acceptable to the Executive Officer.

1. Select exhaust system mileage test points and maintenance mileage test points for

proposed (prop) schedule.

2. Calculate the sums of the squares corrected to the mean of the system mileages at

the proposed test points:

A = [G(X )

- ((GX )

/ N )]

prop P P P prop

Where:

= Individual mileages at which the vehicle will be tested.

= Total number of tests (including before and after maintenance tests).

(Subscript "p" refers to proposed test schedule).

3. Determine exhaust system mileage test points and maintenance mileage test points

based on testing at five thousand mile intervals from 5,000 miles through the final testing

point and maintenance mileage test points selected for the proposed schedule in section 1.

This schedule will be designated as the standard(std) test schedule.

4. Calculate the sums of squares corrected to the mean of the standard schedule.

std

= [G(X )

- ((GX )

/ N)]

std

Where:

= Individual mileages at which the vehicle will be tested.

= Total number of tests (including before and after maintenance).

(Subscript "s" refers to standard test schedule).

5. Refer to Table I and determine t at (N

- 2) degrees of freedom and t

p prop

- 2)

std

If (A

prop

)

$ t

/ t

x (B

std

)

the proposed plan is acceptable.

Table I

For diesel vehicles equipped with periodically regenerating trap oxidizer systems (or those with continuously

regenerating trap oxidizer systems elected to be certified to the provisions of diesel vehicles with periodically

regenerating trap oxidizer systems), additional test schedule requirements for regeneration tests must be met as

outlined in subparagraphs 6.a.4.(B) and 6.b.7.(D) in these procedures.

As Amended 8/5/99

III-1

Degrees of freedom

N-2 t

1 6.314

2 2.920

3 2.353

4 2.132

5 2.015

6 1.943

7 1.895

8 1.860

9 1.833

10 1.812

11 1.796

12 1.782

13 1.771

14 1.761

15 1.753

16 1.746

17 1.740

18 1.734

19 1.729

20 1.725

21 1.721

22 1.717

23 1.714

24 1.711

25 1.708

As Amended 8/5/99

III-2

APPENDIX IV

Procedure for Determining An Acceptable Exhaust Regeneration Durability-Data

Test Schedule for Diesel Cycle Vehicles, Equipped with Periodically

Regenerating Traps Oxidizer Systems

1. Select exhaust system mileage test points for proposed (prop) schedule.

2. Calculate the sums of the squares corrected to the mean of the system mileages at the

proposed test points:

A = [G(X )

- ((GX )

/ N )]

prop p p p prop

Where:

= Individual mileages at which the vehicle will be tested.

= Total number of tests (including before and after maintenance tests).

(Subscript "p" refers to proposed test schedule).

3. The exhaust system mileage tests points at 5,000, 20,000, 35,000 and 50,000 miles will be

designated as the standard (std) test schedule.

4. Calculate the sums of square corrected to the mean of the standard tests schedule.

B = [G(X )

- ((GX )

/ N )]

std s s s std

Where:

= Individual mileages at which the vehicle will be tested.

= Total number of regeneration emission tests.

(Subscript "s" refers to standard test schedule)

5. Refer to Table I and determine t

at (N

- 2)

prop

degrees of freedom and t

at (N

- 2)

std

degrees of freedom.

If (A

prop

)

$ t

/ t

x (B

std

)

the proposed plan is acceptable.

As Amended 8/5/99

IV-1

Table I

Degrees of freedom

N-2 t

1 6.314

2 2.920

3 2.353

4 2.132

5 2.015

6 1.943

7 1.895

8 1.860

9 1.833

10 1.812

11 1.796

12 1.782

13 1.771

14 1.761

15 1.753

As Amended 8/5/99

IV-2

APPENDIX V

Pollutant Mass Emissions Calculation Procedure for Gaseous-Fueled Vehicles and

for Vehicles Equipped with Periodically Regenerating Trap Oxidizer Systems

I. Gaseous-Fueled Vehicle Pollutant Mass Emission Calculation Procedure

For 1988 through 1990 model-year gaseous-fueled vehicles. these calculation procedures are to

be used in lieu of those in subparagraph 86.144-78, and 86.144-90 Part 86, Title 40, Code of

Federal Regulations (CFR) when calculating the mass emissions from vehicles fueled with either

liquefied petroleum gas or compressed natural gas. This calculation procedure is based on the

"Positive Displacement Pump- Constant Volume Sampler (PDP-CVS)" exhaust sampling system.

For 1991 and subsequent model-year gaseous-fueled vehicles, the calculation procedures specified

in "California Non-Methane Hydrocarbon Test Procedures" shall apply to all vehicles certified to

the emission standards of section 3.b., 3.e, and 3.f. of these test procedures. For all TLEVs,

LEVs, and ULEVs, the calculation procedures specified in "California Non-Methane Organic Gas

Test Procedures" shall apply.

The reported test results shall be computed by use of the following formulas:

conc

= Carbon monoxide concentration of the dilute exhaust sample corrected for

background, water vapor, and CO

extraction in ppm.

= Carbon monoxide concentration of the dilution air sample as measured, in ppm.

= Carbon monoxide concentration of the dilution air corrected for water vapor

extraction, in ppm.

= Carbon monoxide concentrations of the dilute exhaust sample volume corrected

for water vapor and carbon dioxide extraction, in ppm. The calculation assumes

the carbon to hydrogen ratio of the fuel to be 1:3.802 for natural gas and 1:2.658

for LPG.

= Carbon monoxide concentration of the dilute exhaust sample as measured, in ppm.

mass

= Carbon monoxide emissions, in grams per test phase.

conc

= Carbon dioxide concentration of the dilute exhaust sample corrected for

background and water vapor, in percent.

= Carbon dioxide concentration of the dilute exhaust sample, in percent.

CO = Carbon dioxide emissions, in grams per test phase.

2 mass

dens

= Density of carbon monoxide is 32.97 g/ft

at 68

F and 760 mm Hg pressure.

CO = Density of carbon dioxide is 51.81 g/ft

at 68

F and 760 mm Hg pressure.

2 dens

dens

= Density of hydrocarbons is 18.64 g/ft

for natural gas and 17.28 g/ft

for LPG

assuming an average carbon to hydrogen ratio of 1:3.802 for natural gas and

1:2.658 for LPG, at 68

F and 760 mm Hg pressure.

NO = Density of oxides of nitrogen is 54.16 9/ft

assuming they are in the form of

2 dens

nitrogen dioxide, at 68

F and 760 mm Hg pressure.

DF = Dilution Factor

These calculation procedures are based on the Federal CVS-1975 Test Procedure.

As Amended 8/5/99

V-1

H = Absolute humidity in grains of water per pound of dry air.

conc

= Hydrocarbon concentration for the dilute exhaust sample corrected for

background, in ppm carbon equivalent, i.e. equivalent propane X 3.

= Hydrocarbon concentration of the dilution air as measured, in ppm carbon

equivalent.

= Hydrocarbon concentration of the dilute exhaust sample, in ppm carbon

equivalent.

mass

= Hydrocarbon emissions, in grams per test phase.

= Humidity correction factor

N = Number of revolutions of the positive displacement pump during the test phase

while samples are being collected.

NOx

conc

= Oxides of nitrogen concentration of the dilute exhaust sample corrected for

background, in ppm.

NOx

= Oxides of nitrogen concentration of the dilute air as measured, in ppm.

NOx

= Oxides of nitrogen concentration of the dilute exhaust sample as measured, in

ppm.

NOx

mass

= Oxides of nitrogen emissions, in grams per test phase.

= Barometric pressure, in mm Hg.

= Saturated vapor pressure, in mm. Hg at ambient dry bulb temp.

= Pressure depression below atmospheric measured at the inlet to the positive

displacement pump.

= Average temperature of dilute exhaust entering positive displacement pump during

test while samples are being collected, in degrees Rankine.

= Relative humidity of the ambient air, in percent.

VMIX = Total dilute exhaust volume in cubic feet per test phase corrected to standard

conditions (528

R and 760 mm Hg).

= Volume of gas pumped by the positive displacement pump, in cubic feet per

revolution. This volume is dependent on the pressure differential across the

positive displacement pump.

= Mass emissions as calculated from the "transient" phase of the cold start test, in

grams per test phase.

= Mass emissions as calculated from the "transient" phase of the hot start test, in

grams per test phase.

= Mass emissions as calculated from the "stabilized" phase of the cold start test, in

grams test phase.

= Weighted mass emissions of each pollutant, i.e., HC, CO, or NOx, in grams per

vehicle mile.

= The measured driving distance from the "transient" phase of the cold start test, in

miles.

= The measured distance from the "transient" phase of the hot start test, in miles.

= The measured driving distance from the "stabilized" phase of the cold start test, in

miles.

For passenger cars, light duty trucks, and medium duty vehicles:

(a) The mass emissions of each pollutant in grams per mile is:

As Amended 8/5/99

V-2

(Y % Y ) % Y )

ct s

ht s

' 0.43 ( % 0.57 (

(D % D ) % D )

ct s

ht s

(b) The mass of each pollutant for each phase of both the cold start test and the hot start test

is determined from the following:

(1) Hydrocarbon mass:

HC = VMIX x HC x (HC / 1,000,000)

mass dens conc

(2) Oxides of nitrogen mass:

NOx

mass

= VMIX x NO

2 dens

x K

x (NOx

conc

/ 1,000,000)

= humidity correction factor

(3) Carbon monoxide mass:

CO = VMIX x CO

dens

x (CO / 1,000,000)

mass conc

(4) Carbon dioxide mass:

CO = VMIX x CO x (CO / 100)

2 mass 2 dens 2 conc

x N x (P

& P

) x 528

VMIX '

(760)(T

)

Hc = HC - HC (1-1/DF)

conc e d

NOx

conc

= NOx

- NOx

(1-1/DF)

conc

= CO

- CO

(1-1/DF)

CO = (1-0.02901 CO - 0.000323 R ) CO for natural gas

e 2 e a em

CO = (1-0.02328 CO - 0.000323 R ) CO for LPG

e 2e a em

CO = (1-0.000323 R ) CO

d a dm

= 1 / [1-0.-0047(H-75)]

H = (43.478R)(P )

/ P

- [(P

x R ) / 1]

DF = 9.77 / [ CO + (HC

+ CO ) x 10-4] for natural gas

2 e e

DF = 11.7 / [CO + (HC

+ CO ) x 10-4] for LPG

2 e e

As Amended 8/5/99

V-3

II. Pollutant Mass Emissions Calculation Procedure for Vehicles Equipped with

Periodically Regenerating Trap Oxidizer Systems

Exhaust Emissions

Amend subparagraph 86.144-88(a) in Part 86, Title 40, Code of Federal Regulations (CFR) to

read:

The final reported test results shall be computed by the use of the following formula:

(a) For light-duty vehicles and light-duty trucks:

= 0.43 ((Yct + Ys)/(Dct + Ds)) + 0.57 ((Yht + Ys)/(Dht + Ds))

For purposes of adjusting emissions for regeneration:

Re = ((Yr1 - Yct) + (Yr2 - Ys) + (Yr3 - Yht))/(Dct + Ds + Dht)

Yr = Ywm

+ Re

Where:

Ywm**= Weighted mass emissions of each pollutant, i.e., HC, CO, NOx or CO , in grams

per vehicle mile.

Yct = Mass emissions as calculated from the "transient" phase of the cold start test, in

grams per test phase.

Yht = Mass emissions as calculated from the "transient" phase of the hot start test in

grams per test phase.

Ys = Mass emissions as calculated from the "stabilized" phase of the cold start test, in

grams per test phase.

Dct = The measured driving distance from the "transient" phase of the cold start test, in

miles.

Dht = The measured distance from the "transient" phase of the hot start test, in miles.

Ds = The measured driving distance from the "stabilized" phase of the cold start test, in

miles.

Yr = Regeneration emission test.

Re = Mass emissions of each pollutant attributable to regeneration in grams per mile.

Yr1 = Mass emissions, during a regeneration emission test, as calculated from the

"transient" phase of the cold start test, in grams per test phase.

Yr2 = Mass emissions, during a regeneration emission test, as calculated from the

"stabilized" phase of the cold start test, in grams per test phase.

Yr3 = Mass emissions, during a regeneration emission test, as calculated from the

"transient" phase of the hot start test in grams per test phase.

Ywm is derived using the emission data from a test with no regeneration.

As Amended 8/5/99

V-4

Particulate Emissions

Amend subparagraph 86.145-82(a) in Part 86, Title 40, Code of Federal Regulations (CFR) to

read:

(a) The final reported test results for the mass particulate (Mp) in grams/mile shall be

computed as follows.

For purposes of adjusting emissions for regeneration:

Mp = 0.43(Mp1 + Mp2)/(Dct + Ds) + 0.57 (Mp3 + Mp2/(Dht + Ds)

Re = ((Mpr1 - Mp1) + (Mpr2 - Mp2) + (Mpr3 - Mp3))/(Dct+Ds+Dht)

Mpr = Mp

***

+ Re

Where:

(1) Mp1 = Mass of particulate determined from the "transient" phase of the cold start test, in

grams per test phase. (See 86.110-82(c)(1) and 86.110-88(d)(1) for determination.)

(2) Mp2 = Mass of particulate determined from the "stabilized" phase of the cold start test, in

grams per test phase. (See 86.110-82(c)(1) and 86.110-88(d)(1) for determination.)

(3) Mp3 = Mass of particulate determined from the "transient" phase of the hot start test, in

grams per test phase. (See 86.110-82(c)(1) and 86.110-88(d)(1) for determination.)

(4) Dct = The measured driving distance from the "transient" phase of the cold start test, in

miles.

(5) Ds = The measured driving distance from the "stabilized" phase of the cold start test, in

miles.

(6) Dht = The measured driving distance from the "transient" phase of the hot start test, in

miles.

(7) Mpr = Regeneration emission test

(8) Re = Mass of particulate attributable to regeneration in grams/mile.

(9) Mpr1 = Mass of particulate determined, during a regeneration emission test, from the

"transient" phase of the cold start test in grams per test phase. (See 86.110-82(c)(1) and

86.110-88(d)(1) for determination.)

(10) Mpr2 = Mass of particulate determined, during a regeneration emission test, from

"stabilized" phase of the cold start test, in grams per test phase. (See 86.110-82(c)(1) and

86.110-88(d)(1) for determination.)

(11) Mpr3 = Mass of particulate determined, during a regeneration emission test, from the

"transient" phase of the hot start test, in grams per test phase. (See 86.110-82(c)(1) and

86.110-88(d)(1) for determination.)

***

Mp is derived using the emission data from a test with no regeneration.

As Amended 8/5/99

V-5

III. Fuel Economy Calculations for Gaseous Fuels Based on the Cold Start CVS-1975

Federal Test Procedure

Assume the fuel meets HD-5 specifications (95% C H , 5% nC H , by volume)

3 8 4 10

1. Physical constants of Propane and Normal Butane

Liquid

Liquid Density Density of HD-5

Component Mol.Wt. SP.Gr.

lb/gal @ 60 F

C H

3 8

44.094 0.508 4.235 x (0.95) = 4.0233

nC H 58.12 0.584 4.868 x (0.95) = .2434

4 10

4.2667

2. Density of the HD-5 fuel

(0.95 X 4.235) + (0.05 X 4.868) = 4.267 lb/gal @ 60 F

3. Molecular Weights

Species Mol. Wt.

C 12.01115

H 1.00797

O 15.9994

CO 28.01055

44.00995

CH * 14.6903

2.658

* Average ratio of Hydrogen to carbon atoms in HD-5 fuel.

C H 8/3 = 2.666 x 0.95 (% propane) = 2.533

3 8

nC H

4 10

10/4 = 2.5 x 0.05 (% Butane) = 0.125

2.658

4. Weight of Carbon in:

CO = wt. of CO x (12.01115/28.01055) = wt CO x (0.429)

= wt. of CO

x (12.01115/44.00995) = wt CO

x (0.273)

CH = wt. of CH x (12.01115/14.6903) = wt CH x (0.818)

2.658 2.658 2.658

5. Wt. of Carbon per gallon of LPG

wt. of carbon = 4.2667 lbs/gal x 453.59 gms/lb x 0.818

= 1583 grams C/gal HD-5

6. Fuel economy:

grams C/gal

' miles/gal

grams C in exhaust/mi

1583 gms C/gal

LPG '

(0.818)(HC) % (0.429)(CO) % (0.273)((CO2)

As Amended 8/5/99

V-6

HC = CVS HC in grams/mile

CO = CVS CO in grams/mile

= CVS CO

in grams/mile

For gasoline: = 2421 / (0.866)(HC) + (0.429)(CO) + (0.273)(CO

)

For Natural Gas: = 1535 / (0.759)(HC) + (0.429)(CO) + (0.273)(CO

)

As Amended 8/5/99

V-7

APPENDIX VI

Blanket Approval of Running Changes and Field Fixes

Running changes and field fixes meeting the following definitions shall be granted

automatic or "blanket" approval by the Executive Officer provided that notification of changes

listed in paragraph 1. below are received by the ARB at least five working days before

implementation, and notification of changes listed in 2. through 13. below are received by the

ARB within two working days after implementation. Such automatic approvals shall be effective

when they are approved by EPA.

For passenger cars, light-duty trucks and medium-duty vehicles:

1. The addition of new models to an engine family where the new models differ from

previously certified models only in model name and curb weight (same inertia

weight class), and where the exhaust, evaporative and fill pipe emission control

system specifications do not change.

2. Changes in axle ratio, tire size or tire type, providing that changes to the N/V ratio

and/or load horsepower are within 5% of the originally certified values. This

includes re-classification of base and optional axle ratios or tires.

3. The deletion of models or vehicle configurations.

4. Changes in fuel tank capacity of less than 10 percent of the originally certified

capacity, providing there is no other modification of the evaporative emission

control system.

5. Changes to the fuel filler system leaded fuel nozzle restrictor, where EPA

preemption is involved.

6. Advance certification of models in the next higher inertia weight class, for use if

needed later.

7. Changes in tailpipe length of less than ten inches.

8. The following changes involving spark plugs:

a. The addition of resistor-type spark plugs if nonresistor spark plugs are

standard, or vice-versa, providing the secondary circuit resistance changes

less than 5 percent.

b. The addition of alternate heat ranges within one range of the originally

certified spark plugs.

As Amended 8/5/99

VI-1

c. The change of spark plug gap within 15 percent of originally certified spark

plug gap.

9. Changes to component part numbers when there are no changes in the materials

used or to the performance specifications (e.g. distributor advance curves,

carburetor flow curves, fuel pump supply pressure, etc.). These changes may be

the result of parts consolidation, changes in supplier, addition/deletion of

peripheral items such as brackets, and minor dimensional changes where the

durability and performance are not affected.

10. Changes in the crankcase emission control system where EPA preemption is

involved, excluding revisions that could have an interaction effect on exhaust

emissions (e.g., PCV purge flow changes).

11. Changes submitted under the alternate or concurrent notification procedure in 40

CFR 86 which would otherwise qualify for automatic or "blanket" status.

12. Changes in the physical location of a vacuum hose connection with no change in

the relationship between vacuum, speed, load, or any other vacuum-related

parameter, provided that the changes do not render the vacuum hose routing

diagram unrepresentative.

13. Changes in exhaust system cross sectional area, if this area equals or exceeds the

minimum area in the system.

As Amended 8/5/99

VI-2

APPENDIX VII

Calculation of t-Statistic for Deterioration Data Outlier Test

Residual normal deviates to indicate outliers are used routinely and usefully in analyzing

regression data, but suffer theoretical deficiencies if statistical significance tests are required.

Consequently, the procedure for testing for outliers outlined by Snedecor and Cochran, 6th ed.,

Statistical Methods, pp. 157-168 will be used. The method will be described generally, then by

appropriate formulae, and finally a numerical example will be given.

Linearity is assumed (as in the rest of the deterioration factor calculation procedure), and

each contaminant is treated separately. The procedure is as follows:

Calculate the deterioration factor regression as usual, and determine the largest

residual in absolute value. Then recalculate the regression with the suspected outlier

omitted. From the new regression line calculate the residual at the deleted point, denoted

)

Obtain a statistic by dividing

)

by the square root of the

estimated variance of

)

Find the tailed probability, p, from the t-distribution

corresponding to the quotient (double-tailed), with n-3 degrees of freedom, with n the

original sample size.

This probability, p, assumes the suspected outlier is randomly selected, which is

not true. Therefore, the outlier will be rejected only if 1 - (1- p)

# .05.

The procedure will be repeated for each contaminant individually until no outliers

are indicated.

When an outlier is found, the vehicle test log will be examined. If an unusual

vehicle malfunction is indicated, data for all contaminants at that test point will be

rejected: otherwise, only the identified outlier will be omitted in calculating the

deterioration factor.

Procedure for the calculation of the t-statistic for Deterioration Data Outlier Test.

Given a set of n points, (x , y ), (x , y )...(x , y ).

1 1 2 2 n n

Where:

is the mileage of the i

data point

y is the emission of the i

data point

Assume model:

y ' " % $(x & x) % ,

I. i) Calculate the regression line.

yˆ ' a % b(x & x)

ii)

Suppose the absolute value of the i residual (y

& yˆ

) is the largest.

As Amended 8/5/99

VII-1

II. i) Calculate the regression line with the i

point deleted.

yˆ! ' a! %b!(x & x)

(y & yˆ

)

ii)

Let t '

i i

varˆ (y

& yˆ

Where y is the observed suspected outlier and

yˆ !

is the predicted value

with the suspected outlier deleted.

& x)

varˆ (y

& yˆ

!) ' S

1 % % , j…i

(x & x)

n&1

- 1

j'1

(x is calculated without the suspected outlier)

& y

j'1

S ' , j…i

n&3

iii) Find p form the t-statistic table

Where

P = prob(|t(n-3)| $ t)

t(n-3) is a t-distributed variable with n-3 degrees of freedom.

iv) y

is an outlier if 1- (1 - p)

< .05

Example

x y

yˆ

y&y

8 59 56.14 2.86

6 58 58.17 -0.17

11 56 53.10 2.90

* -22 53 41.96 11.04

14 50 50.06 -0.06

17 45 47.03 -2.03

18 43 46.01 -3.01

24 42 39.94 2.06

19 39 45.00 -6.00

As Amended 8/5/99

VII-2

23 38 40.95 -2.95

26 30 37.91 -7.91

40 27 23.73 3.27

Assume model:

y ' " % $(x & x) % ,

013

(

)

* Suspected outlier

Suspected point out of regression:

y ' 44.273 & 1.053(x & x)

273

053

(

727

)

827

173

1 10.711

ˆvar(y

' S

& yˆ

!) 1 % %

11 914.182

( - -)

As Amended 8/5/99

VII-3

APPENDIX VIII

Procedure for Determining Vehicle Emission Control Technology Category/Fuel

Reactivity Adjustment Factors

The following procedure shall be used by the Executive Officer to establish the reactivity

adjustment factor for exhaust emissions of non-methane organic gases (NMOG) and establish the

"methane reactivity adjustment factor" for exhaust methane emissions from natural gas vehicles,

for the purpose of certifying a vehicle of specific emission control technology category and fuel

for sale in California. The NMOG emission results from Transitional Low-Emission Vehicles

(TLEVs), Low-Emission Vehicles (LEVs), and Ultra-Low-Emission Vehicles (ULEVs) designed

to operate on any available fuel other than conventional gasoline, including fuel-flexible and

dual-fuel vehicles when operating on any available fuel other than conventional gasoline, shall be

numerically-adjusted to establish a NMOG exhaust mass emission value equivalent, in terms of

ozone-forming potential, to the NMOG exhaust mass emissions from conventional gasoline-fueled

vehicles of the same vehicle emission control technology category.

(1) The Executive Officer shall determine representative speciated NMOG exhaust emission

profiles for light- and medium-duty conventional gasoline-fueled TLEVs, LEVs, and

ULEVs according to the following conditions.

a. All testing will be conducted using a specified gasoline blend representative of

commercial gasoline and having the specifications listed in (9).

b. Speciated NMOG profiles shall be obtained from a statistically valid number of

TLEVs, LEVs, and ULEVs.

c. The speciated NMOG profiles shall identify and quantify, in units of g/mile or

mg/mile, as many constituents as possible in accordance with the procedures specified in

"California Non-Methane Organic Gas Test Procedures."

(2) The "g ozone potential per mile" of each NMOG identified in the speciated profile shall be

determined by multiplying the "g/mile NMOG" emission value of the constituent NMOG

by its maximum incremental reactivity given in (10).

(3) The "total g ozone potential per mile" of NMOG exhaust emissions from the vehicle/fuel

system shall be the sum of all the constituent NMOG "g ozone potential per mile" values

calculated in step (2).

(4) The "g ozone potential per g NMOG" for the vehicle/fuel system shall be determined by

dividing the "total g ozone potential per mile" value calculated in step (3) by the "total

g/mile of NMOG emissions".

(5) For light- and medium-duty candidate vehicle/fuel systems not powered by conventional

gasoline, the Executive Officer shall establish "reactivity adjustment factors" calculated

As Amended 8/5/99

VIII-1

from exhaust emission profiles derived according to the same conditions specified in parts

b and c of step (1).

(6) The "g ozone potential per g NMOG" for candidate vehicle/fuel systems not powered by

conventional gasoline shall be determined according to steps (2), (3), and (4).

(7) a. The candidate vehicle/fuel "reactivity adjustment factor" shall be determined by

dividing the "g ozone potential per g NMOG" calculated in step (6) by the "g ozone

potential per g NMOG" value for the vehicle in the same emission control technology

category operated on conventional gasoline. The "g ozone potential per g NMOG" values

for conventional gasoline vehicles are listed in Section 13.d. of these test procedures or

shall be established by the Executive Officer pursuant to Appendix VIII of these test

procedures. For candidate vehicle/fuel systems powered by methanol or liquefied

petroleum gas, the quotient calculated above shall be multiplied by 1.1. The resulting

value shall constitute the "reactivity adjustment factor" for the methanol or liquefied

petroleum gas-powered vehicle/fuel system.

b. For candidate vehicle/fuel systems operating on natural gas, a "methane reactivity

adjustment factor" shall be calculated by dividing the maximum incremental reactivity

value for methane given in (10) by the "g ozone potential per g NMOG" value for the

vehicle in the same emission control technology category operated on conventional

gasoline as listed in Section 13.d. of these test procedures or established by the Executive

Officer pursuant to Appendix VIII of these test procedures.

(8) The Executive Officer shall assign a reactivity adjustment factor unique to a specific

engine family at the request of a vehicle manufacturer provided that each of the following

occurs:

a. The manufacturer submits speciated NMOG exhaust emission profiles to the

Executive Officer obtained from emission testing a minimum of four different vehicles

representative of vehicles that will be certified in the engine family. The test vehicles shall

include the official emission-data vehicle(s) for the engine family, and the mileage

accumulation of each vehicle shall be at or greater than 4000 miles. One speciated profile

shall be submitted for each test vehicle. Emission levels of each constituent NMOG shall

be measured according to the "California Non-Methane Organic Gas Test Procedures."

For the emission-data vehicle(s), the speciated profile(s) shall be obtained from the same

test used to obtain the official exhaust emission test results for the emission-data vehicle at

the 4,000 mile test point. The manufacturer shall calculate "g ozone potential per g

NMOG" values for each speciated NMOG exhaust emission profile in accordance with the

procedures specified in steps (2), (3), and (4) above. By using these "g ozone potential

per g NMOG" values, the manufacturer shall calculate a "reactivity adjustment factor" for

each test vehicle in accordance with the procedure specified in step (7) above. A

"reactivity adjustment factor" for the engine family shall be calculated by taking the

arithmetic mean of the "reactivity adjustment factor"' obtained for each test vehicle. The

95 percent upper confidence bound (95% UCB) shall be calculated according to the

equation:

As Amended 8/5/99

VIII-2

95% UCB = RAF + 1.96 x [ G (RAF

- RAF

)

/ (n-1)]

i=1

where:

RAF

= mean "reactivity adjustment factor" calculated for the engine family

RAF

= "reactivity adjustment factor" calculated for the i'th test vehicle

n = number of test vehicles

The 95 percent upper confidence bound of the "reactivity adjustment factor" for the

engine family shall be less than or equal to 115 percent of the engine family "reactivity

adjustment factor."

b. The manufacturer submits an "ozone deterioration factor" for the engine family.

To determine the "ozone deterioration factor," the manufacturer shall perform two tests at

each mileage interval for one or more durability vehicle(s) tested in accordance with the

procedures and conditions specified in Sections 6 and 10 of these California Exhaust

Emission Standards and Test Procedures for 1988 and Subsequent Model Passenger Cars,

Light-Duty Trucks, and Medium-Duty Vehicles for calculating mass deterioration factors.

The Executive Officer shall approve the use of other mileage intervals and procedures if

the manufacturer can demonstrate that equivalently representative "ozone deterioration

factors" are obtained. One speciated profile shall be submitted for each test. Emission

levels of each constituent NMOG shall be measured according to the "California

Non-Methane Organic Gas Test Procedures. A mean g/mi NMOG mass value and a mean

"g ozone per g NMOG" value shall be calculated by taking the arithmetic mean of each

measurement from the speciated profiles. These results shall be multiplied together to

obtain a mean "total g ozone potential per mile" value at each mileage interval. A mean

"ozone deterioration factor" shall be calculated in accordance with the procedures in

Sections 6, 10, and Appendix VIII of these California Exhaust Emission Standards and

Test Procedures for 1988 and Subsequent Model Passenger Cars, Light-Duty Trucks, and

Medium-Duty Vehicles except that the mean total "g ozone potential per mile" value

determined at each mileage interval shall be used in place of measured mass emissions. If

the "ozone deterioration factor" is determined to be less than 1.00, the "ozone

deterioration factor" shall be assigned a value of 1.00.The "ozone deterioration factor"

shall be multiplied by the product of the official exhaust NMOG mass emission results at

the 4000 mile test point and the mean "reactivity adjustment factor" for the engine family

to obtain the NMOG certification levels used to determine compliance with the NMOG

emission standards.

c. The speciated profiles, mean "reactivity adjustment factor" for the engine family,

and "ozone deterioration factor" are provided to the Executive Officer with the

certification application for the engine family.

As Amended 8/5/99

VIII-3

(9) Gasoline meeting the specifications listed below shall be used to determine the "g ozone

potential per g NMOG" of conventional gasoline:

Fuel Property Limit

Sulfur, ppm by weight 300 ± 50

Benzene, volume percent 1.6 ± 0.3

Reid vapor pressure, psi 8.7 ± 0.3

Distillation, D-86 degrees F

10% 115-135

50%, maximum 240

90% 323-333

EP, maximum 420

Hydrocarbon Type, volume percent

Total Aromatics 32 ± 3.0

Multi-substituted alkyl aromatics 21 ± 3.0

Olefins 12 ± 3.0

Saturates remainder

(The test methods used for each fuel property shall be the same as the test method for the

identical fuel property listed in section 9.a.1. of these test procedures.)

(10) The maximum incremental reactivities to be used in step (2) are provided in the table

below. Any manufacturer which intends to use the table shall submit to the Executive

Officer a list which provides the specific organic gases measured by the manufacturer and

the maximum incremental reactivity value assigned to each organic gas prior to or with the

submittal of a request for the use of a reactivity adjustment factor unique to a specific

engine family. The Executive Officer may deny such requests if he or she determines that

the maximum incremental reactivity value assignments are made incorrectly.

As Amended 8/5/99

VIII-4

Maximum Incremental Reactivity (MIR) Values

(Units: grams ozone/gram organic gas)

CAS # COMPOUND MIR

Alcohols

00067-56-1 methanol 0.56

00064-17-5 ethanol 1.34

Light End and Mid-Range Hydrocarbons

(Listed in approximate elution order)

methane 0.0148

00074-85-1 ethene 7.29

00074-86-2 ethyne 0.50

00074-84-0 ethane 0.25

00115-07-1 propene 9.40

00074-98-6 propane 0.48

00463-49-0 1,2-propadiene 10.89

00074-99-7 1-propyne 4.10

00075-28-5 methylpropane 1.21

00115-11-7 2-methylpropene 5.31

00106-98-9 1-butene 8.91

00106-99-0 1,3-butadiene 10.89

00106-97-8 n-butane 1.02

00624-64-6 trans-2-butene 9.94

00463-82-1 2,2-dimethylpropane 0.37

00107-00-6 1-butyne 9.24

00590-18-1 cis-2-butene 9.94

00563-45-1 3-methyl-1-butene 6.22

00078-78-4 2-methylbutane 1.38

00503-17-3 2-butyne 9.24

00109-67-1 1-pentene 6.22

00563-46-2 2-methyl-1-butene 4.90

00109-66-0 n-pentane 1.04

00078-79-5 2-methyl-1,3-butadiene 9.08

00646-04-8 trans-2-pentene 8.80

00558-37-2 3,3-dimethyl-1-butene 4.42

00627-20-3 cis-2-pentene 8.80

00689-97-4 1-buten-3-yne 9.24

00513-35-9 2-methyl-2-butene 6.41

00542-92-7 1,3-cyclopentadiene 7.66

00075-83-2 2,2-dimethylbutane 0.82

00142-29-0 cyclopentene 7.66

00691-37-2 4-methyl-1-pentene 4.42

As Amended 8/5/99

VIII-5

CAS # COMPOUND MIR

00760-20-3 3-methyl-1-pentene 4.42

00287-92-3 cyclopentane 2.38

00079-29-8 2,3-dimethylbutane 1.07

01634-04-4 1-methyl-tert-butyl-ether 0.62

00691-38-3 4-methyl-cis-2-pentene 6.69

00107-83-5 2-methylpentane 1.53

00674-76-0 4-methyl-trans-2-pentene 6.69

00096-14-0 3-methylpentane 1.52

00763-29-1 2-methyl-1-pentene 4.42

00592-41-6 1-hexene 4.42

00110-54-3 n-hexane 0.98

13269-52-8 trans-3-hexene 6.69

07642-09-3 cis-3-hexene 6.69

04050-45-7 trans-2-hexene 6.69

00616-12-6 3-methyl-trans-2-pentene 6.69

00625-27-4 2-methyl-2-pentene 6.69

01120-62-3 3-methylcyclopentene 5.65

07688-21-3 cis-2-hexene 6.69

00637-92-3 1-ethyl-tert-butyl-ether 1.98

00922-62-3 3-methyl-cis-2-pentene 6.69

00590-35-2 2,2-dimethylpentane 1.40

00096-37-7 methylcyclopentane 2.82

00108-08-7 2,4-dimethylpentane 1.78

00464-06-2 2,2,3-trimethylbutane 1.32

07385-78-6 3,4-dimethyl-1-pentene 3.48

00693-89-0 1-methylcyclopentene 7.66

00071-43-2 benzene 0.42

03404-61-3 3-methyl-1-hexene 3.48

00562-49-2 3,3-dimethylpentane 0.71

00110-82-7 cyclohexane 1.28

00591-76-4 2-methylhexane 1.08

00565-59-3 2,3-dimethylpentane 1.51

00110-83-8 cyclohexene 5.67

00589-34-4 3-methylhexane 1.40

02532-58-3 cis-1,3-dimethylcyclopentane 2.55

00617-78-7 3-ethylpentane 1.40

00822-50-4 trans-1,2-dimethylcyclopentane 1.85

00592-76-7 1-heptene 3.48

00540-84-1 2,2,4-trimethylpentane 0.93

14686-14-7 trans-3-heptene 5.53

00142-82-5 n-heptane 0.81

02738-19-4 2-methyl-2-hexene 5.53

03899-36-3 3-methyl-trans-3-hexene 5.53

14686-13-6 trans-2-heptene 5.53

As Amended 8/5/99

VIII-6

CAS # COMPOUND MIR

00816-79-5 3-ethyl-2-pentene 5.53

00107-39-1 2,4,4-trimethyl-1-pentene 2.69

10574-37-5 2,3-dimethyl-2-pentene 5.53

06443-92-1 cis-2-heptene 5.53

00108-87-2 methylcyclohexane 1.85

00590-73-8 2,2-dimethylhexane 1.20

00107-40-4 2,4,4-trimethyl-2-pentene 5.29

01640-89-7 ethylcyclopentane 2.31

00592-13-2 2,5-dimethylhexane 1.63

00589-43-5 2,4-dimethylhexane 1.50

00563-16-6 3,3-dimethylhexane 1.20

00565-75-3 2,3,4-trimethylpentane 1.60

00560-21-4 2,3,3-trimethylpentane 1.20

00108-88-3 toluene 2.73

00584-94-1 2,3-dimethylhexane 1.32

00592-27-8 2-methylheptane 0.96

00589-53-7 4-methylheptane 1.20

00589-81-1 3-methylheptane 0.99

15890-40-1 (1a,2a,3b)-1,2,3-trimethylcyclopentane 1.94

00638-04-0 cis-1,3-dimethylcyclohexane 1.94

02207-04-7 trans-1,4-dimethylcyclohexane 1.94

03522-94-9 2,2,5-trimethylhexane 0.97

00111-66-0 1-octene 2.69

14850-23-8 trans-4-octene 5.29

00111-65-9 n-octane 0.61

13389-42-9 trans-2-octene 5.29

02207-03-6 trans-1,3-dimethylcyclohexane 1.94

07642-04-8 cis-2-octene 5.29

01069-53-0 2,3,5-trimethylhexane 1.14

02213-23-2 2,4-dimethylheptane 1.34

02207-01-4 cis-1,2-dimethylcyclohexane 1.94

01678-91-7 ethylcyclohexane 1.94

00926-82-9 3,5-dimethylheptane 1.14

00100-41-4 ethylbenzene 2.70

03074-71-32 2,3-dimethylheptane 1.14

00108-38-3 m-&p-xylene 7.64

`02216-34-4 4-methyloctane 1.14

03221-61-2 2-methyloctane 1.14

02216-33-3 3-methyloctane 1.14

00100-42-5 styrene(ethenylbenzene) 2.22

00095-47-6 o-xylene 6.46

00124-11-8 1-nonene 2.23

As Amended 8/5/99

VIII-7

CAS # COMPOUND MIR

00111-84-2 n-nonane 0.54

00098-82-8 (1-methylethyl)benzene 2.24

15869-87-1 2,2-dimethyloctane 1.01

04032-94-4 2,4-dimethyloctane 1.01

00103-65-1 n-propylbenzene 2.12

00620-14-4 1-methyl-3-ethylbenzene 7.20

00622-96-8 1-methyl-4-ethylbenzene 7.20

00108-67-8 1,3,5-trimethylbenzene 10.12

00611-14-3 1-methyl-2-ethylbenzene 7.20

00095-63-6 1,2,4-trimethylbenzene 8.83

00124-18-5 n-decane 0.47

00538-93-2 (2-methylpropyl)benzene 1.87

00135-98-8 (1-methylpropyl)benzene 1.89

00535-77-3 1-methyl-3-(1-methylethyl)benzene 6.45

00526-73-8 1,2,3-trimethylbenzene 8.85

00099-87-6 1-methyl-4-(1-methylethyl)benzene 6.45

00496-11-7 2,3-dihydroindene(indan) 1.06

00527-84-4 1-methyl-2-(1-methylethyl)benzene 6.45

00141-93-5 1,3-diethylbenzene 6.45

00105-05-5 1,4-diethylbenzene 6.45

01074-43-7 1-methyl-3-n-propylbenzene 6.45

01074-55-1 1-methyl-4-n-propylbenzene 6.45

00135-01-3 1,2-diethylbenzene 6.45

01074-17-5 1-methyl-2-n-propylbenzene 6.45

01758-88-9 1,4-dimethyl-2-ethylbenzene 9.07

00874-41-9 1,3-dimethyl-4-ethylbenzene 9.07

00934-80-5 1,2-dimethyl-4-ethylbenzene 9.07

02870-04-4 1,3-dimethyl-2-ethylbenzene 9.07

01120-21-4 n-undecane(hendecane) 0.42

00933-98-2 1,2-dimethyl-3-ethylbenzene 9.07

00095-93-2 1,2,4,5-tetramethylbenzene 9.07

03968-85-2 (2-methylbutyl)benzene 1.07

00527-53-7 1,2,3,5-tetramethylbenzene 9.07

01074-92-6 1-(1,1-dimethylethyl)-2-methylbenzene 5.84

00488-23-3 1,2,3,4-tetramethylbenzene 9.07

00538-68-1 n-pentylbenzene 1.70

00098-19-1 1-(1,1-dimethylethyl)-3,5-DMbenzene 7.50

00091-20-3 naphthalene 1.18

00112-40-3 n-dodecane 0.38

Carbonyl Compounds

As Amended 8/5/99

VIII-8

CAS # COMPOUND MIR

00050-00-0 formaldehyde 7.15

00075-07-0 acetaldehyde 5.52

00107-02-8 acrolein 6.77

00067-64-1 acetone 0.56

00123-33-6 propionaldehyde 6.53

00123-72-8 butyraldehyde 5.26

00066-25-1 hexanaldehyde 3.79

00100-52-7 benzaldehyde -0.55

00078-93-3 methyl ethyl ketone (2-butanone) 1.18

00078-85-3 methacrolein 6.77

04170-30-3 crotonaldehyde 5.42

00110-62-3 valeraldehyde 4.41

00620-23-5 m-tolualdehyde -0.55

As Amended 8/5/99

VIII-9