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Application for Certification
Common Section for Model Year 2005
Cover Page
Page 1 of 1
CS Part 1 Issued: 05/24/04
Table of contents of Common Section
Section Contents Reference, Applicability
1 Correspondence and Communications
2 Durability Group Description
3 Evaporative/Refueling Family Description
4 Durability Procedure Description Refer to Section 16
5 Test Group Description not applicable
6 Test Vehicle Description not applicable
7 Test Results not applicable
8 Emission testing waiver statement
9 OBD System Description Refer to Section 16
10 Description of Alternate-fueled Vehicles not applicable
11 AECD descriptions
12 Description of vehicles covered by certificate and test parameters
13 Projected Sales Refer to Section 16
14 Request for Certification not applicable
15 Other information not applicable
16 Confidential information
17 California ARB Information
Application for Certification
Common Section for Model Year 2005
Table of Changes
Page 1
CS Part 1 Revision
No. Revision
Date Part Section Page Description of Change
1 01/10/05 1 1 1,3 responsibilities updated
2 01/10/05 1 3 4 Working capacity carbon canister corrected
Application for Certification
Common Section for Model Year 2005
Section 1
Page 1 of 3
CS Part 1 Issued: 05/24/04 1. Correspondence and Communications 1.1. Authorized Persons 1.1.1. Persons situated in the United States and authorized to communicate with EPA and CARB:
Name First Name Area of responsibility Phone Number E-Mail
Ziwica Karl-Heinz Vice President Engineering US 201-573-2068 Karl-Heinz.Ziwica@bmwna.com
Hall Wilhelm General Manager Environmental Engineering 201-573-2177 Wilhelm.Hall@bmwna.com
Hofmann Thomas Senior Engineer Emissions & Fuel Economy Certification
201-573-2195 Thomas.Hofmann@bmwna.com
Sinkez Stephen Senior Engineer Safety & Environmental Engineering 201-573-2069 Stephen.Sinkez@bmwna.com
McGregor Doug Emissions Compliance Engineer 201-573-2193 Doug.McGregor@bmwna.com
The preceding representatives can be reached at: BMW of North America, LLC Engineering
Revised 01/10/2005 ----- ----- ----- ----- ----- -----
Application for Certification
Common Section for Model Year 2005
Section 1
Page 2 of 3
CS Part 1 Issued: 05/24/04 1.1.2. Persons situated in the manufacturers home office and authorized to communicate with EPA and CARB
Name First Name Area of responsibility Phone Number E-Mail
Dr. Göschel Burkhard Director Vehicle Engineering 0049 - (0)89 / 382 - 44740 Burkhard.Goeschel@bmw.de
Dr. Nitschke Friedrich Director Vehicle Regulations 0049 - (0)89 / 382 - 55600 Friedrich.Nitschke@bmw.de
Weichmann Willibald Chief EngineerVehicle Regulations
0049 - (0)89 / 382 - 34413 Willibald.Weichmann@bmw.de
Wagener Horst ManagerEmission Control Certification
0049 - (0)89 / 382 - 32500 Horst.Wagener@bmw.de
Cramm Dieter Senior EngineerEmission Control Certification
0049 - (0)89 / 382 - 32613 Dieter.Cramm@bmw.de
Asgari Dawud EngineerEmission Control Certification
0049 - (0)89 / 382 - 58820 Dawud.Asgari@bmw.de
Edenhofer Robert EngineerEmission Control Certification
0049 - (0)89 / 382 - 38651 Robert.Edenhofer@bmw.de
Rück Marcus EngineerEmission Control Certification
0049 - (0)89 / 382 - 52177 Marcus.Rueck@bmw.de
The preceding representatives can be reached at: Bayerische Motoren Werke AG
Dept. ES-63 80788 München Germany Fax-No.: 01149 - 89 / 382 – 32594
Application for Certification
Common Section for Model Year 2005
Section 1
Page 3 of 3
CS Part 1 Issued: 05/24/04
1.2. Certificate Information
1.2.1. Corporate Name and Address that should appear on the Certificate of Conformity and on the Executive Order
Bayerische Motoren Werke AG 80788 Munich Germany
1.2.2. Name and Address of the person to whom the Cerificate and the Executive Order should be mailed
Mr. Wilhelm Hall General Manager, Environmental Engineering 1 BMW Plaza BMW of North America LLC Montvale, N.J. 07645
1.3. Primary Certification Contact: Refer to Section 1, Item 1.3 of the Application for Certification of respective Test Group. Revised 01/10/2005 ----- ----- ----- ----- ----- -----
Application for Certification
Common Section for Model Year 2005
Section 2
Page 1 of 3
CS Part 1 Issued: 05/24/04 2. Durability Group Description
Line
No
Model Name
Gea
r Box
Dur
abLi
ity G
roup
5BM
XG
PG
NN
_ _
_
basi
c fu
el m
eter
ing
syst
em
Pre
c. M
et. C
omp.
GS
Em
iss.
Std
.
DD
V S
elec
tion
ED
V S
elec
tion
1 320i M C30 MPI Pd/Rh 3,3 LEV 5BMXV02.2M5R 2 320i A A C30 MPI Pd/Rh 3,3 LEV 1 X
3 Z4 roadster 2.5i M V30 MPI Pd/Rh 2,9 LEV 5BMXV03.0LER 4 Z4 roadster 2.5i - SMG S V30 MPI Pd/Rh 2,9 LEV
5 Z4 roadster 2.5i A A V30 MPI Pd/Rh 2,9 LEV
6 325xi M V30 MPI Pd/Rh 2,9 LEV
7 325xi A A V30 MPI Pd/Rh 2,9 LEV
8 325xi sport wagon M V30 MPI Pd/Rh 2,9 LEV
9 325xi A sport wagon A V30 MPI Pd/Rh 2,9 LEV X
10 330xi M V30 MPI Pd/Rh 2,4 LEV
11 330xi A A V30 MPI Pd/Rh 2,4 LEV
12 Z4 roadster 3.0i M V30 MPI Pd/Rh 2,7 ULEV 13 Z4 roadster 3.0i - SMG S V30 MPI Pd/Rh 2,7 ULEV 14 Z4 roadster 3.0i A A V30 MPI Pd/Rh 2,7 ULEV A
5BMXV03.0M5R
15 X3 - 2.5i M V30 MPI Pd/Rh 2,9 LEV 5BMXT03.0E83 16 X3 - 2.5i A A V30 MPI Pd/Rh 2,9 LEV
17 X3 - 3.0i M V30 MPI Pd/Rh 2,4 LEV
18 X5 - 3.0i M V30 MPI Pd/Rh 2,7 ULEV-MDV x 5BMXT03.0E5R 19 X5 - 3.0i A A V30 MPI Pd/Rh 2,7 ULEV-MDV X X 5BMXT03.0E53 20 325i M V3A MPI Pt/Pd/Rh 3.4 ULEV II 5BMXB03.0UL2 21 325iA A V3A MPI Pt/Pd/Rh 3.4 ULEV II
22 325Ci M V3A MPI Pt/Pd/Rh 3.4 ULEV II
23 325Ci A A V3A MPI Pt/Pd/Rh 3.4 ULEV II
24 325i sport wagon M V3A MPI Pt/Pd/Rh 3.4 ULEV II
25 325i sport wagon A A V3A MPI Pt/Pd/Rh 3.4 ULEV II
26 325Ci convertible M V3A MPI Pt/Pd/Rh 3.4 ULEV II
27 325Ci convertible A A V3A MPI Pt/Pd/Rh 3.4 ULEV II
28 525i M V3A MPI Pt/Pd/Rh 3.4 ULEV II
29 525iA A V3A MPI Pt/Pd/Rh 3.4 ULEV II
30 330i (6-speed) M V3A MPI Pt/Pd/Rh 2.9 ULEV II
31 330i A A V3A MPI Pt/Pd/Rh 2.9 ULEV II
32 330Ci (6-Speed) M V3A MPI Pt/Pd/Rh 2.9 ULEV II
33 330Ci A A V3A MPI Pt/Pd/Rh 2.9 ULEV II
34 330Ci convertible (6-speed) M V3A MPI Pt/Pd/Rh 2.9 ULEV II
35 330Ci convertible A A V3A MPI Pt/Pd/Rh 2.9 ULEV II
36 530i M V3A MPI Pt/Pd/Rh 2.9 ULEV II
37 530 iA A V3A MPI Pt/Pd/Rh 2.9 ULEV II
38 X3 - 3.0i A A V3A MPI Pt/Pd/Rh 2.9 ULEV II-
LDT X X 39 325i SMG S V3A MPI Pt/Pd/Rh 3.4 ULEV 5BMXV03.0SMG 40 325Ci SMG S V3A MPI Pt/Pd/Rh 3.4 ULEV
41 325Ci convertible - SMG S V3A MPI Pt/Pd/Rh 3.4 ULEV
42 325i sport wagon - SMG S V3A MPI Pt/Pd/Rh 3.4 ULEV
43 525i SMG S V3A MPI Pt/Pd/Rh 3.4 ULEV
44 330i SMG S V3A MPI Pt/Pd/Rh 2.9 ULEV
Application for Certification
Common Section for Model Year 2005
Section 2
Page 2 of 3
CS Part 1 Issued: 05/24/04
Line
No
Model Name
Gea
r Box
Dur
abLi
ity G
roup
5BM
XG
PG
NN
_ _
_
basi
c fu
el m
eter
ing
syst
em
Pre
c. M
et. C
omp.
GS
Em
iss.
Std
.
DD
V S
elec
tion
ED
V S
elec
tion
45 330Ci SMG S V3A MPI Pt/Pd/Rh 2.9 ULEV 5BMXV03.0SMG 46 330Ci convertible SMG S V3A MPI Pt/Pd/Rh 2.9 ULEV X
47 530i SMG S V3A MPI Pt/Pd/Rh 2.9 ULEV
48 325i A A V25 MPI Pt/Pd/Rh 10 SULEV 5BMXV02.5M56 49 325Ci A A V25 MPI Pt/Pd/Rh 10 SULEV
50 325i sport wagon A A V25 MPI Pt/Pd/Rh 10 SULEV X X
51 Mini Cooper M N44 MPI Pd/Rh 1.6 LEV 5BMXV01.6R50 52 Mini Cooper convertible M N44 MPI Pd/Rh 1.6 LEV
53 Mini Cooper CVT A N44 MPI Pd/Rh 1.6 LEV
54 Mini Cooper CVT convertible A N44 MPI Pd/Rh 1.6 LEV
55 Mini Cooper S M N44 MPI Pd/Rh 1.6 LEV
56 Mini Cooper S Convertible M N44 MPI Pd/Rh 1.6 LEV X
57 Mini Cooper S A N44 MPI Pd/Rh 1.6 LEV
58 Mini Cooper S Convertible A N44 MPI Pd/Rh 1.6 LEV
59 X5 4.4i A N44 MPI Pd/Rh 1.6 LEV-MDV X 5BMXT04.8N62 60 X5 4.8is A N44 MPI Pd/Rh 1.4 LEV-MDV X
61 745i A N44 MPI Pd/Rh 1.6 LEV 5BMXV04.4LEV 62 745Li A N44 MPI Pd/Rh 1.6 LEV X
63 545i M N44 MPI Pd/Rh 1.6 LEV
64 545i SMG S N44 MPI Pd/Rh 1.6 LEV
65 545i A A N44 MPI Pd/Rh 1.6 LEV
66 645Ci M N44 MPI Pd/Rh 1.6 LEV
67 645Ci SMG S N44 MPI Pd/Rh 1.6 LEV
68 645Ci A A N44 MPI Pd/Rh 1.6 LEV
69 645 Ci convertible M N44 MPI Pd/Rh 1.6 LEV
70 645 Ci convertible SMG S N44 MPI Pd/Rh 1.6 LEV
71 645 Ci convertible A A N44 MPI Pd/Rh 1.6 LEV
72 Rolls Royce A V67 DI Pd/Rh 1.9 LEV X 5RRGV06.7N73 73 760i, 760Li A V67 DI Pd/Rh 2.2 LEV X 5BMXV06.0N73 74 M3 M V32 MPI Pt/Pd/Rh 3.3 LEV 5BMXV03.2S54 75 M3 A S V32 MPI Pt/Pd/Rh 3.3 LEV
76 M3 convertible M V32 MPI Pt/Pd/Rh 3.3 LEV
77 M3 convertible A S V32 MPI Pt/Pd/Rh 3.3 LEV X X
1 Durability Group 5BMXGPGNNC30 is covered by carry over of MY 2001 Durability run of X5 3.0i A EDV tests are covered by carry over of MY 2001 330Ci convertible test run
Application for Certification
Common Section for Model Year 2005
Section 2
Page 3 of 3
CS Part 1 Issued: 05/24/04
All BMW-Models in this Model Year are similar in following items of the Durability Group Description:
Combustion Cycle four stroke, Otto cycle
Engine Type piston, water cooled
Fuel used gasoline
Catalyst construction monolith Basic fuel metering system MPI multipoint, sequential fuel injection
DI direct injection
Application for Certification
Common Section for Model Year 2005
Section 3
Page 1 of 8
CS Part 1 Issued: 05/24/04 3. Evaporative / Refueling Family Description 3.1. Evaproative / Refuelling Family 5BMXR0160E39
3.1.1. Type of vapor storage device Canister
3.1.2. Basic canister design Working capacity: System configuration: construction: materials:
160 ± 10 g 1 canister closed bottom, active charcoal granulate; plastic
3.1.3. Fuel system time-controlled returnless fuel system electronic sequential multipoint fuel injection, plastic fuel tank
3.1.4. Type of refuelling emission control system
Integrated with the evaporative control system
3.1.5. Fill pipe seal mechanism Liquid seal
3.1.6. Vapor control system passive mechanical system with liquid seal
3.1.7. Purge control system electric purge valve, controlled by Engine Control Module
3.1.8. Vapor hose material Polyamid
3.1.9. Fuel tank material HDPE COEX (Lupolen)
Application for Certification
Common Section for Model Year 2005
Section 3
Page 2 of 8
CS Part 1 Issued: 05/24/04 3.2. Evaproative / Refuelling Family 5BMXR0136E46
3.2.1. Type of vapor storage device Canister
3.2.2. Basic canister design Working capacity: System configuration: construction: materials:
136 ± 10 g 1 canister closed bottom, active charcoal granulate; plastic
3.2.3. Fuel system time-controlled returnless fuel system electronic sequential multipoint fuel injection, plastic fuel tank
3.2.4. Type of refuelling emission control system
Integrated with the evaporative control system
3.2.5. Fill pipe seal mechanism Liquid seal
3.2.6. Vapor control system passive mechanical system with liquid seal
3.2.7. Purge control system electric purge valve, controlled by Engine Control Module
3.2.8. Vapor hose material Polyamid
3.2.9. Fuel tank material HDPE COEX (Lupolen)
Application for Certification
Common Section for Model Year 2005
Section 3
Page 3 of 8
CS Part 1 Issued: 05/24/04 3.3. Evaproative / Refuelling Family 5BMXR0158E65
3.3.1. Type of vapor storage device Canister
3.3.2. Basic canister design Working capacity: System configuration: construction: materials:
158 ± 10 g 1 canister closed bottom, active charcoal granulate; plastic
3.3.3. Fuel system time-controlled returnless fuel system electronic sequential multipoint fuel injection, plastic fuel tank
3.3.4. Type of refuelling emission control system
Integrated with the evaporative control system
3.3.5. Fill pipe seal mechanism Liquid seal
3.3.6. Vapor control system passive mechanical system with liquid seal
3.3.7. Purge control system electric purge valve, controlled by Engine Control Module
3.3.8. Vapor hose material Polyamid
3.3.9. Fuel tank material HDPE COEX (Lupolen)
Application for Certification
Common Section for Model Year 2005
Section 3
Page 4 of 8
CS Part 1 Issued: 05/24/04 3.4. Evaproative / Refuelling Family 5BMXR0093R50
3.4.1. Type of vapor storage device Canister
3.4.2. Basic canister design Working capacity: System configuration: construction: materials:
102 ± 10 g 1 canister closed bottom, active charcoal granulate; plastic
3.4.3. Fuel system time-controlled returnless fuel system electronic sequential multipoint fuel injection, plastic fuel tank
3.4.4. Type of refuelling emission control system
Integrated with the evaporative control system
3.4.5. Fill pipe seal mechanism Liquid seal
3.4.6. Vapor control system passive mechanical system with liquid seal
3.4.7. Purge control system electric purge valve, controlled by Engine Control Module
3.4.8. Vapor hose material Polyamid
3.4.9. Fuel tank material HDPE COEX (Lupolen)
Revised 01/10/05 ----- ----- ----- ----- ----- -----
Application for Certification
Common Section for Model Year 2005
Section 3
Page 5 of 8
CS Part 1 Issued: 05/24/04 3.5. Evaproative / Refuelling Family 5BMXR0128E85
3.5.1. Type of vapor storage device Canister
3.5.2. Basic canister design Working capacity: System configuration: construction: materials:
128 ± 10 g 1 canister closed bottom, active charcoal granulate; plastic
3.5.3. Fuel system time-controlled returnless fuel system electronic sequential multipoint fuel injection, plastic fuel tank
3.5.4. Type of refuelling emission control system
Integrated with the evaporative control system
3.5.5. Fill pipe seal mechanism Liquid seal
3.5.6. Vapor control system passive mechanical system with liquid seal
3.5.7. Purge control system electric purge valve, controlled by Engine Control Module
3.5.8. Vapor hose material Polyamid
3.5.9. Fuel tank material HDPE COEX (Lupolen)
Application for Certification
Common Section for Model Year 2005
Section 3
Page 6 of 8
CS Part 1 Issued: 05/24/04 3.6. Evaproative / Refuelling Family 5BMXR0134M56
3.6.1. Type of vapor storage device Canister
3.6.2. Basic canister design Working capacity: System configuration: construction: materials:
134 ± 10 g 1 canister closed bottom, active charcoal granulate; active charcoal monolith steel (1.4301)
3.6.3. Fuel system time-controlled returnless fuel system electronic sequential multipoint fuel injection, steel fuel tank
3.6.4. Type of refuelling emission control system
Integrated with the evaporative control system
3.6.5. Fill pipe seal mechanism Liquid seal
3.6.6. Vapor control system passive mechanical system with liquid seal
3.6.7. Purge control system electric purge valve, controlled by Engine Control Module
3.6.8. Vapor hose material Steel (1.4301)
3.6.9. Fuel tank material Steel (1.4301)
Application for Certification
Common Section for Model Year 2005
Section 3
Page 7 of 8
CS Part 1 Issued: 05/24/04 3.7. Evaproative / Refuelling Family 5BMXR0158N73
3.7.1. Type of vapor storage device Canister
3.7.2. Basic canister design Working capacity: System configuration: construction: materials:
158 ± 10 g 1 canister closed bottom, active charcoal granulate; plastic
3.7.3. Fuel system time-controlled return less fuel system electronic direct fuel injection, plastic fuel tank
3.7.4. Type of refueling emission control system
Integrated with the evaporative control system
3.7.5. Fill pipe seal mechanism Liquid seal
3.7.6. Vapor control system passive mechanical system with liquid seal
3.7.7. Purge control system electric purge valve, controlled by Engine Control Module
3.7.8. Vapor hose material Polyamid
3.7.9. Fuel tank material HDPE COEX (Lupolen)
Application for Certification
Common Section for Model Year 2005
Section 3
Page 8 of 8
CS Part 1 Issued: 05/24/04 3.8. Evaproative / Refuelling Family 5BMXR0090E60
3.8.1. Type of vapor storage device Canister
3.8.2. Basic canister design Working capacity: System configuration: construction: materials:
90 ± 10 g 1 canister closed bottom, active charcoal granulate; plastic
3.8.3. Fuel system time-controlled returnless fuel system electronic sequential multipoint fuel injection, plastic fuel tank
3.8.4. Type of refueling emission control system
Integrated with the evaporative control system
3.8.5. Fill pipe seal mechanism Liquid seal
3.8.6. Vapor control system passive mechanical system with liquid seal
3.8.7. Purge control system electric purge valve, controlled by Engine Control Module
3.8.8. Vapor hose material Polyamid
3.8.9. Fuel tank material HDPE COEX (Lupolen)
Application for Certification
Common Section for Model Year 2005
Section 8
Page 1 of 2
CS Part 1 Issued: 05/24/04 8. Emission testing waiver statement 8.1. Data submittal waiver for high-altitude exhaust emission compliance
Based on our engineering evaluation of appropriate high-altitude emission testing we state as the manufacturer, that all light-duty vehicles and light-duty trucks included in the respective applications comply with the applicable emission standards at high altitude. According to 40 CFR §86.1829-01 (b)(1)(ii)(B) we waive the data submittal on the basis of this statement
8.2. Data submittal waiver for particulate emissions of gasoline fueled light-duty
vehicles or gasoline fueled light duty trucks
We herewith state, that the gasoline fueled vehicles included in the respective applications, comply with the applicable standards for particulate emissions of light-duty vehicles or light duty trucks. According to 40 CFR §86.1829-01 (b)(1)(iii)(B) we waive the data submittal on the basis of this statement.
8.3. Data submittal waiver for CST exhaust emission compliance
Based on our engineering evaluation of appropriate CST testing and I/M testing we state as the manufacturer, that all light-duty vehicles and light-duty trucks included in the respective applications comply with the applicable CST and I/M emission standards. According to 40 CFR §86.1829-01 (b)(4)(ii) we waive the data submittal on the basis of this statement
8.4. Data submittal waiver for Idle CO Testing
Based on our engineering evaluation of appropriate Idle CO emissions we state as the manufacturer, that all light-duty trucks included in the respective applications comply with the applicable idle CO emission standards. According to 40 CFR §86.1829-01 (b)(5)(ii) we waive the data submittal on the basis of this statement
Application for Certification
Common Section for Model Year 2005
Section 8
Page 2 of 2
CS Part 1 Issued: 05/24/04 8.5. Corporate Average Fuel Economy Calculation
During the 2002/2003 model year and in accordance with Dear Manufacturer letter CCD-02-10, BMW performed a broad-based customer vehicle survey that downloaded select-shift transmission usage data during service at authorized BMW dealers. BMW has determined that 2004 model year BMW vehicles equipped with select-shift transmissions (BMW steptronic models only) will be operated predominantly in the economy mode. Using good engineering judgment, BMW has concluded that it is appropriate to carry-forward and carry-across the results of the earlier survey. Accordingly, BMW will use only economy-mode fuel economy test results when calculating fuel economy label values and Corporate Average Fuel Economy (CAFE) for the 2005 model year vehicles described in the respective application.
8.6. Leak –free exhaust system The exhaust system installed on any current model year BMW vehicle fulfills the requirements of § 86.1844-01(d)(16). In accordance with this regulation the exhaust system is designed:
- to facilitate leak free assembly, installation and operation for the full useful life of the vehicle and
- facilitate repairs to maintain leak-free operation.
Application for Certification
Common Section for Model Year 2005
Section 9 Page 1 of 1
CS Part 1 Issued: 05/24/04
9. OBD System Description For OBD system description refer to Section 16
Application for Certification
Common Section for Model Year 2005
Section 11
Page 1 of 2
CS Part 1 Issued: 05/24/04
11. AECD descriptions 11.1. AECD description 11.1.1. General description of Engine Control System
The engine is controlled by the Engine Control Module (ECM). The ECM is a microcomputer - controlled system to regulate the fuel injection functions and ignition functions of the engine. The ECM receives the various sensed parameters to process and optimize injection timing, quantity of fuel injected and ignition timing for the individual engine and subsequent vehicle operating conditions.
11.1.2. Temperature Sensors 11.1.2.1 T01: Coolant temperature
Sensor: Coolant Temperature Sensor Description: Negative Temperature Coefficient Resistor (NTC),
located in the water jacket of the cylinder block
11.1.3. Speed sensors 11.1.3.1. S01: Vehicle speed
Sensor: Inductive Impulse Sensor Description: The amplified signal of the ABS-Sensor of the right
rear wheel is processed by the ECM.
11.1.3.2. S02: Engine speed
Sensor: Inductive Impulse Sensor Description: Scanning the teeth of a reference wheel, directly
attached to the crankshaft. The change of the magnetic flux is processed by the ECM.
11.1.4. Position sensors 11.1.4.1. P01: Throttle position
Sensor: 2 opposed rotary rheostats Description: The current signal of every rheostat is processed by
the ECM as throttle position angle. The opposed arrangement of the rheostats is used for interruption and short circuit surveillance.
Application for Certification
Common Section for Model Year 2005
Section 11
Page 2 of 2
CS Part 1 Issued: 05/24/04
11.1.5. Auxiliary sensors 11.1.5.1. X01: Engine knocking
Sensor: Knock Sensors Description: located at the upper edge of the cylinder block
11.1.5.2. X02: Air Mass
Sensor: Hot-film mass air-flow sensor (HFM) Description: The HFM is integrated in the induction system and
located between the air filter and throttle body assembly.
11.1.5.3. X03: Air Conditioning
Description: The operation of the air conditioning is detected by the air conditioning control unit. The operating status is reported constantly by CAN to the ECM.
11.1.5.4. X04: Automatic Transmission gear
Sensor: Switches Description: The position of the transmission selector lever is
transmitted by a Bowden transmission to the transmission selector shaft at the gearbox. On the transmission selector shaft a multi-position switch is attached in/at the gearbox, which senses the respective gear selected (P, R, N, D).
11.2. Effect of listed AECD on Emission Control System
The AECD’s mentioned above , including the respective computer control strategies, do not affect the effectiveness of the emission control system in any conditions expected to be encountered in normal vehicle operation and use and to any point of time of vehicle operation. The AECD’s does not represent Defeat Devices according to 40 CFR § 86.1803-01.
Application for Certification
Common Section for Model Year 2005
Section 12
Page 1 of 3
CS Part 1 Issued: 05/24/04 12. Description of vehicles covered by certificate and test parameters 12.1 Vehicle parameters Refer to application of respective vehicle 12.2. Test Parameters 12.2.1. Engine Starting Procedures 12.2.1.1. Vehicles with manual transmission
Before starting the clutch pedal has to be actuated and kept in the actuated position. Switch on ignition and operate the starter, by turning the ignition key in the ignition lock to the respective positions in the ignition lock.
The crank procedure is carried out without actuating the accelerator pedal.
After a successful crank procedure the key can be released to the „Ignition On“ position.
12.2.1.2. Vehicles with automatic transmission
Before starting the transmission selector must be in the „Park“-position and the brake pedal has to be actuated and kept in the actuated position. Switch on ignition and operate the starter, by turning the ignition key in the ignition lock to the respective position in the ignition lock.
The crank procedure is carried out without actuating the accelerator pedal.
After a successful crank procedure the key can be released to the „Ignition On“ position. 12.2.2. Shift Schedules
12.2.2.1 Manual transmission for FTP-75
The Shift Schedules are in accordance with 40 CFR §86.128-79 and A/C No. 72 A.
Gear Speed [ mph ]
1st into 2nd 15
2nd into 3rd 25
3rd into 4th 40
4th into 5th 45
5th into 6th 50
Application for Certification
Common Section for Model Year 2005
Section 12
Page 2 of 3
CS Part 1 Issued: 05/24/04 12.2.2.2. Manual transmission for US06
Gear Shift Speed [ mph ]
Declutch in Gear
Declutch Speed [ mph ]
1st into 2nd 20 1st
2nd into 3rd 40 2nd
3rd into 4th 50 3rd
4th into 5th 55 4th
5th into 6th 60 5th
15
6th 22 12.2.3. Dynamometer loading Information Refer to application of respective vehicle 12.2.4. Evaporative testing parameters 12.2.4.1. Evaporative/Refueling Family: 5BMXR0160E39 Canister loading: according to the provisions contained in
40 CFR §86.132-96
Fuel Tank Temperature Profile: refer to enclosure 1 of this Section (The given Temperature Profile represents worst case vehicle tested)
12.2.4.2. Evaporative/Refueling Family: 5BMXR0160E46 Canister loading: according to the provisions contained in
40 CFR §86.132-96
Fuel Tank Temperature Profile: M3, M3 convertible : refer to enclosure 2 of this Section (The given Temperature Profile represents worst case vehicle tested)
all other models included in 5BMXR0136E46 : refer to enclosure 3 of this Section (The given Temperature Profile represents worst case vehicle tested)
12.2.4.3. Evaporative/Refueling Family: 5BMXR0158E65 Canister loading: according to the provisions contained in
40 CFR §86.132-96
Fuel Tank Temperature Profile: refer to enclosure 4 of this Section (The given Temperature Profile represents worst case vehicle tested)
Application for Certification
Common Section for Model Year 2005
Section 12
Page 3 of 3
CS Part 1 Issued: 05/24/04 12.2.4.4. Evaporative/Refueling Family: 5BMXR0093R50 Canister loading: according to the provisions contained in
40 CFR §86.132-96
Fuel Tank Temperature Profile: refer to enclosure 5 of this Section (The given Temperature Profile represents worst case vehicle tested)
12.2.4.5. Evaporative/Refueling Family: 5BMXR0128E85 Canister loading: according to the provisions contained in
40 CFR §86.132-96
Fuel Tank Temperature Profile: refer to enclosure 6 of this Section (The given Temperature Profile represents worst case vehicle tested)
12.2.4.6. Evaporative/Refueling Family: 5BMXR0134M56 Canister loading: according to the provisions contained in
40 CFR §86.132-96
Fuel Tank Temperature Profile: refer to enclosure 7 of this Section (The given Temperature Profile represents worst case vehicle tested)
12.2.4.7. Evaporative/Refueling Family: 5BMXR0158N73 Canister loading: according to the provisions contained in
40 CFR §86.132-96
Fuel Tank Temperature Profile: refer to enclosure 8 of this Section (The given Temperature Profile represents worst case vehicle tested)
12.2.4.8. Evaporative/Refueling Family: 5BMXR0090E60 Canister loading: according to the provisions contained in
40 CFR §86.132-96
Fuel Tank Temperature Profile: refer to enclosure 9 of this Section (The given Temperature Profile represents worst case vehicle tested)
Application for Certification
Common Section for Model Year 2005
Enclosure 1 of Section 12 Page 1 of 4
CS Part 1 Issued: 05/24/04
Test Vehicle Data
Vehicle Type: E 53 4.6 is
Mileage: 1604 mi
fuel tank volume 93.0 l
fuel volume 37.2 l
Ambient Conditions
Weather 5% clouds
wind speed < 14 km/h
start ambient temperature
96,7 °F
end ambient temperature
98,1 °F
Test Data
Date of test 07/21/2001
Engine start: 12:39
Measure start 12:40
Measure Stop 13:52
Test Track: FAA Exponent, Phoenix, Arizona USA
Time Fuel
Temperature 1 Fuel
Temperature 2 Average Fuel Temperature
Corrected Average Fuel Temperature
Vapor Temperature
Fuel Tank Pressure
[ s ] [ °F ] [ °F ] [ °F ] [ °F ] [ °F ] [ hPa ]
0 35,08 35,02 35,05 95,00 37,19 0,04 30 35,14 35,02 35,08 95,05 37,16 0,04 60 35,14 35,14 35,14 95,16 37,28 0,06 90 35,24 35,17 35,21 95,27 37,13 0,05
120 35,39 35,21 35,30 95,44 37,16 0,02 150 35,36 35,27 35,31 95,47 37,10 0,04 180 35,33 35,27 35,30 95,44 37,19 0,04 210 35,39 35,39 35,39 95,60 37,16 0,04 240 35,42 35,39 35,40 95,63 37,19 0,04 270 35,60 35,48 35,54 95,88 37,28 0,04 300 35,54 35,54 35,54 95,88 37,25 0,05 330 35,66 35,54 35,60 95,99 37,34 0,04 360 35,66 35,51 35,59 95,96 37,37 0,04 390 35,85 35,69 35,77 96,29 37,46 0,05 420 35,82 35,66 35,74 96,24 37,49 0,04 450 35,94 35,91 35,92 96,57 37,52 0,02 480 35,97 35,94 35,95 96,62 37,62 0,04 510 35,94 35,97 35,95 96,62 37,71 0,02 540 36,03 36,06 36,04 96,79 37,65 0,05 570 36,03 35,97 36,00 96,70 37,71 0,04 600 36,24 36,15 36,20 97,06 37,80 0,04 630 36,18 36,15 36,17 97,01 37,95 0,02 660 36,24 36,18 36,21 97,09 37,89 0,02 690 36,43 36,43 36,43 97,47 37,98 0,02 720 36,52 36,49 36,50 97,61 38,10 0,04 750 36,52 36,61 36,56 97,72 38,10 0,05 780 36,70 36,67 36,69 97,94 38,17 0,05 810 36,76 36,73 36,75 98,05 38,29 0,04 840 36,79 36,79 36,79 98,13 38,32 0,04 870 36,88 36,79 36,84 98,21 38,38 0,04 900 37,01 37,01 37,01 98,52 38,56 0,05 930 37,01 37,01 37,01 98,52 38,65 0,05 960 37,16 37,13 37,14 98,76 38,62 0,05 990 37,19 37,19 37,19 98,85 38,68 0,05 1020 37,43 37,31 37,37 99,17 38,75 0,02 1050 37,52 37,40 37,46 99,34 38,90 0,04 1080 37,52 37,43 37,48 99,37 38,90 0,05
Application for Certification
Common Section for Model Year 2005
Enclosure 1 of Section 12 Page 2 of 4
CS Part 1 Issued: 05/24/04
Time Fuel
Temperature 1 Fuel
Temperature 2 Average Fuel Temperature
Corrected Average Fuel Temperature
Vapor Temperature
Fuel Tank Pressure
[ s ] [ °F ] [ °F ] [ °F ] [ °F ] [ °F ] [ hPa ]
1110 37,49 37,59 37,54 99,48 38,93 0,02 1140 37,74 37,65 37,69 99,75 38,99 0,04 1170 37,83 37,74 37,78 99,92 39,02 0,05 1200 37,92 37,86 37,89 100,11 39,11 0,06 1230 37,98 38,04 38,01 100,33 39,20 0,04 1260 38,13 38,10 38,12 100,52 39,26 0,04 1290 38,29 38,13 38,21 100,69 39,29 0,04 1320 38,35 38,29 38,32 100,88 39,32 0,05 1350 38,38 38,35 38,36 100,96 39,32 0,05 1380 38,38 38,44 38,41 101,04 39,45 0,05 1410 38,44 38,50 38,47 101,15 39,45 0,05 1440 38,53 38,59 38,56 101,32 39,39 0,04 1470 38,71 38,59 38,65 101,48 39,48 0,04 1500 38,84 38,71 38,78 101,70 39,51 0,04 1530 38,87 38,87 38,87 101,87 39,51 0,02 1560 38,96 38,96 38,96 102,03 39,63 0,04 1590 39,20 39,08 39,14 102,36 39,72 0,04 1620 39,20 39,23 39,22 102,50 39,90 0,04 1650 39,29 39,36 39,32 102,69 40,03 0,04 1680 39,48 39,42 39,45 102,91 40,15 0,05 1710 39,57 39,51 39,54 103,07 40,39 0,05 1740 39,75 39,69 39,72 103,40 40,48 0,06 1770 39,84 39,87 39,86 103,65 40,58 0,06 1800 40,03 40,06 40,04 103,98 40,64 0,04 1830 40,18 40,09 40,13 104,15 40,82 0,04 1860 40,30 40,33 40,32 104,48 40,94 0,05 1890 40,27 40,30 40,29 104,42 41,03 0,04 1920 40,36 40,48 40,42 104,67 41,22 0,04 1950 40,52 40,52 40,52 104,83 41,31 0,04 1980 40,64 40,64 40,64 105,05 41,31 0,04 2010 40,73 40,73 40,73 105,22 41,25 0,04 2040 40,94 40,82 40,88 105,49 41,43 0,04 2070 40,97 40,97 40,97 105,66 41,43 0,05 2100 41,13 41,13 41,13 105,93 41,49 0,04 2130 41,09 41,09 41,09 105,88 41,55 0,04 2160 41,19 41,22 41,20 106,07 41,55 0,06 2190 41,40 41,31 41,35 106,34 41,74 0,04 2220 41,52 41,52 41,52 106,65 41,80 0,05 2250 41,55 41,61 41,58 106,76 41,83 0,04 2280 41,64 41,55 41,60 106,78 41,83 0,05 2310 41,86 41,77 41,81 107,17 41,95 0,04 2340 41,92 41,86 41,89 107,30 42,01 0,04 2370 41,98 42,01 42,00 107,50 42,19 0,05 2400 42,07 42,10 42,09 107,66 42,22 0,05 2430 42,16 42,16 42,16 107,80 42,10 0,05 2460 42,32 42,22 42,27 107,99 42,29 0,04 2490 42,25 42,29 42,27 107,99 42,10 0,04 2520 42,35 42,35 42,35 108,13 42,07 0,05 2550 42,62 42,53 42,58 108,54 42,25 0,05
Application for Certification
Common Section for Model Year 2005
Enclosure 1 of Section 12 Page 3 of 4
CS Part 1 Issued: 05/24/04
Time Fuel
Temperature 1 Fuel
Temperature 2 Average Fuel Temperature
Corrected Average Fuel Temperature
Vapor Temperature
Fuel Tank Pressure
[ s ] [ °F ] [ °F ] [ °F ] [ °F ] [ °F ] [ hPa ]
2580 42,71 42,56 42,64 108,65 42,47 0,04 2610 42,68 42,71 42,70 108,76 42,32 0,05 2640 42,83 42,77 42,80 108,95 42,32 0,05 2670 42,96 42,90 42,93 109,17 42,47 0,06 2700 42,93 42,96 42,94 109,20 42,53 0,04 2730 43,08 43,02 43,05 109,39 42,71 0,02 2760 43,11 43,14 43,12 109,53 42,62 0,02 2790 43,23 43,17 43,20 109,67 42,77 0,05 2820 43,26 43,29 43,28 109,80 42,83 0,05 2850 43,35 43,38 43,37 109,97 42,93 0,04 2880 43,57 43,60 43,58 110,35 42,99 0,05 2910 43,60 43,57 43,58 110,35 43,14 0,05 2940 43,75 43,69 43,72 110,60 43,17 0,05 2970 43,87 43,78 43,83 110,79 43,23 0,05 3000 43,99 43,99 43,99 111,09 43,44 0,02 3030 44,12 44,12 44,12 111,31 43,60 0,04 3060 44,21 44,24 44,22 111,51 43,69 0,04 3090 44,21 44,33 44,27 111,59 43,84 0,05 3120 44,39 44,42 44,41 111,84 43,96 0,04 3150 44,48 44,42 44,45 111,92 44,21 0,04 3180 44,57 44,60 44,59 112,17 44,18 0,04 3210 44,67 44,73 44,70 112,36 44,33 0,04 3240 44,85 44,76 44,80 112,55 44,57 0,05 3270 44,76 44,88 44,82 112,58 44,63 0,05 3300 44,94 45,00 44,97 112,85 44,73 0,04 3330 45,06 44,97 45,02 112,94 44,97 0,05 3360 45,15 45,06 45,11 113,10 44,88 0,02 3390 45,21 45,25 45,23 113,32 45,06 0,04 3420 45,31 45,40 45,35 113,54 45,12 0,04 3450 45,43 45,46 45,44 113,70 45,18 0,04 3480 45,49 45,52 45,50 113,81 45,21 0,04 3510 45,58 45,67 45,63 114,03 45,34 0,05 3540 45,55 45,67 45,61 114,01 45,21 0,04 3570 45,67 45,67 45,67 114,12 45,34 0,05 3600 45,76 45,89 45,83 114,39 45,52 0,06 3630 45,89 45,89 45,89 114,50 45,67 0,06 3660 46,07 45,92 45,99 114,69 45,64 0,04 3690 46,10 46,07 46,08 114,86 45,79 0,05 3720 46,16 46,13 46,15 114,97 45,89 0,02 3750 46,10 46,07 46,08 114,86 45,73 0,06 3780 46,13 46,22 46,18 115,02 45,79 0,06 3810 46,25 46,25 46,25 115,16 45,79 0,02 3840 46,34 46,25 46,30 115,24 45,86 0,04 3870 46,41 46,41 46,41 115,43 45,92 0,06 3900 46,56 46,56 46,56 115,71 45,67 0,05 3930 46,68 46,59 46,63 115,85 45,73 0,04 3960 46,59 46,62 46,60 115,79 45,70 0,04 3990 46,65 46,65 46,65 115,87 45,70 0,02 4020 46,74 46,77 46,76 116,07 45,70 0,05
Application for Certification
Common Section for Model Year 2005
Enclosure 1 of Section 12 Page 4 of 4
CS Part 1 Issued: 05/24/04
Time Fuel
Temperature 1 Fuel
Temperature 2 Average Fuel Temperature
Corrected Average Fuel Temperature
Vapor Temperature
Fuel Tank Pressure
[ s ] [ °F ] [ °F ] [ °F ] [ °F ] [ °F ] [ hPa ]
4050 46,74 46,80 46,77 116,09 45,73 0,05 4080 46,95 46,89 46,92 116,37 45,64 0,06 4110 46,95 46,98 46,97 116,45 45,73 0,05 4140 47,11 47,05 47,08 116,64 45,92 0,02 4170 47,11 47,08 47,09 116,67 45,92 0,05 4200 47,20 47,14 47,17 116,81 45,76 0,05 4230 47,20 47,14 47,17 116,81 45,83 0,04 4260 47,26 47,23 47,24 116,95 45,67 0,04 4290 47,35 47,32 47,34 117,11 45,70 0,02
Application for Certification
Common Section for Model Year 2005
Enclosure 2 of Section 12 Page 1 of 3
CS Part 1 Issued: 05/24/04
Test Vehicle Data
Vehicle Type: E46
Mileage: 6841 mi
fuel tank volume 63.0 l
fuel volume 25.2 l
Ambient Conditions
Weather sunny, 5% clouds
wind speed < 14 km/h
start ambient temperature
101.4 °F
end ambient temperature
103.6 °F
Test Data
Date of test 08/18/1999
Engine start: 11:39
Measure start 11:40
Measure Stop 12:52
Test Track: FAA Exponent, Phoenix, Arizona USA
Time Fuel
Temperature 1 Fuel
Temperature 2 Average Fuel Temperature
Corrected Average Fuel Temperature
Vapor Temperature
Fuel Tank Pressure
[ s ] [ °F ] [ °F ] [ °F ] [ °F ] [ °F ] [ hPa ]
0 100,8 101,3 101,0 95,0 105,1 0,0 30 100,5 101,0 100,8 94,8 105,1 0,4 60 101,0 101,6 101,3 95,3 104,9 -0,1 90 101,6 102,1 101,9 95,9 104,3 0,3 120 102,1 102,4 102,3 96,3 104,6 0,2 150 102,4 102,7 102,5 96,5 104,3 0,3 180 102,1 102,4 102,3 96,3 104,6 -1,4 210 102,4 102,7 102,5 96,5 103,5 -1,4 240 102,4 103,0 102,7 96,7 104,9 -2,8 270 103,0 103,0 103,0 97,0 104,9 -2,8 300 103,2 103,5 103,4 97,4 104,9 -3,4 330 103,2 103,5 103,4 97,4 105,1 -1,2 360 103,5 103,8 103,6 97,6 105,1 -1,0 390 103,8 104,1 103,9 97,9 105,4 -0,5 420 104,1 104,6 104,3 98,3 105,1 -1,5 450 104,6 104,9 104,7 98,7 106,0 -2,3 480 104,9 105,1 105,0 99,0 106,0 -1,7 510 105,1 105,1 105,1 99,1 106,0 -1,4 540 105,1 105,4 105,3 99,3 106,0 -1,1 570 105,4 105,4 105,4 99,4 106,5 -0,1 600 105,7 106,0 105,8 99,8 106,8 0,6 630 106,0 106,5 106,2 100,2 107,1 -1,8 660 106,2 106,5 106,4 100,4 107,1 -0,6 690 106,5 106,8 106,7 100,7 107,9 -0,7 720 106,8 107,1 106,9 100,9 107,6 0,2 750 107,1 107,3 107,2 101,2 108,2 -1,1 780 107,3 107,9 107,6 101,6 108,4 0,5 810 107,6 107,9 107,8 101,8 108,4 1,3 840 108,2 108,4 108,3 102,3 109,3 -0,2 870 108,4 108,7 108,6 102,6 109,3 -1,5 900 109,0 109,3 109,1 103,1 109,3 1,5 930 109,0 109,3 109,1 103,1 109,8 -0,1 960 109,3 109,5 109,4 103,4 110,1 1,6 990 109,5 110,1 109,8 103,8 110,4 1,7 1020 110,1 110,1 110,1 104,1 110,9 2,0 1050 110,4 110,6 110,5 104,5 110,9 -0,9 1080 110,4 110,6 110,5 104,5 111,5 0,3 1110 111,2 111,5 111,3 105,3 111,7 -1,9 1140 111,2 111,5 111,3 105,3 111,7 -1,9 1170 111,5 112,0 111,7 105,7 112,0 -0,7 1200 111,7 112,0 111,9 105,9 112,3 1,0 1230 112,0 112,6 112,3 106,3 112,8 -0,2
Application for Certification
Common Section for Model Year 2005
Enclosure 2 of Section 12 Page 2 of 3
CS Part 1 Issued: 05/24/04
Time Fuel
Temperature 1 Fuel
Temperature 2 Average Fuel Temperature
Corrected Average Fuel Temperature
Vapor Temperature
Fuel Tank Pressure
[ s ] [ °F ] [ °F ] [ °F ] [ °F ] [ °F ] [ hPa ]
1260 112,3 112,6 112,4 106,4 113,1 -1,7 1290 112,8 113,1 113,0 107,0 113,1 -1,2 1320 113,1 113,4 113,3 107,3 113,4 0,6 1350 113,4 113,7 113,5 107,5 113,7 -0,7 1380 113,4 113,7 113,5 107,5 113,9 -2,3 1410 113,7 113,7 113,7 107,7 114,2 -1,3 1440 113,9 114,2 114,1 108,1 114,5 1,7 1470 114,2 114,5 114,4 108,4 114,8 -1,2 1500 114,5 114,8 114,6 108,6 114,8 0,1 1530 114,8 115,0 114,9 108,9 115,3 -1,5 1560 115,0 115,3 115,2 109,2 115,3 -2,6 1590 115,3 115,3 115,3 109,3 115,6 -3,2 1620 115,3 115,6 115,4 109,4 115,6 -3,0 1650 115,9 116,1 116,0 110,0 116,1 -1,0 1680 115,9 115,9 115,9 109,9 116,1 -2,1 1710 116,1 116,7 116,4 110,4 116,4 -2,3 1740 116,4 116,4 116,4 110,4 116,7 -4,2 1770 117,0 117,0 117,0 111,0 116,7 -4,2 1800 116,7 117,2 117,0 111,0 117,0 -0,8 1830 117,2 117,5 117,4 111,4 117,2 -0,7 1860 117,5 117,5 117,5 111,5 117,5 -2,8 1890 117,8 117,8 117,8 111,8 117,8 0,1 1920 117,8 118,1 117,9 111,9 118,1 -2,4 1950 118,3 118,3 118,3 112,3 118,3 -2,5 1980 118,6 118,6 118,6 112,6 118,6 -0,7 2010 118,6 118,6 118,6 112,6 118,3 -4,1 2040 118,6 119,2 118,9 112,9 118,9 -3,5 2070 118,9 119,2 119,0 113,0 119,2 -4,0 2100 119,4 119,7 119,6 113,6 119,2 -3,1 2130 119,4 119,7 119,6 113,6 119,2 1,1 2160 120,0 120,3 120,1 114,1 119,4 -0,4 2190 120,0 120,0 120,0 114,0 119,7 -0,8 2220 120,3 120,3 120,3 114,3 120,0 -0,5 2250 120,5 120,5 120,5 114,5 120,0 -2,3 2280 120,8 120,8 120,8 114,8 120,3 -2,4 2310 121,1 121,1 121,1 115,1 120,5 -2,3 2340 120,8 121,1 120,9 114,9 120,5 -0,8 2370 121,4 121,4 121,4 115,4 121,1 0,1 2400 121,6 121,6 121,6 115,6 121,4 -0,6 2430 121,6 121,6 121,6 115,6 121,6 -1,3 2460 122,2 122,5 122,3 116,3 121,4 0,7 2490 122,2 122,2 122,2 116,2 121,6 -1,2 2520 122,5 122,5 122,5 116,5 121,9 -1,9 2550 122,7 122,7 122,7 116,7 122,2 -0,8 2580 123,0 123,0 123,0 117,0 122,5 -1,9 2610 123,0 123,3 123,1 117,1 122,5 0,1 2640 123,3 123,3 123,3 117,3 122,5 -0,7 2670 123,6 123,6 123,6 117,6 123,0 -0,8 2700 123,3 123,6 123,4 117,4 123,0 1,0 2730 123,6 123,8 123,7 117,7 123,0 0,2 2760 123,8 124,1 124,0 118,0 123,3 -0,4 2790 124,1 124,1 124,1 118,1 123,3 -0,1 2820 124,4 124,4 124,4 118,4 123,8 0,3 2850 124,4 124,4 124,4 118,4 123,8 0,5 2880 124,7 124,9 124,8 118,8 124,1 -0,7 2910 124,7 124,9 124,8 118,8 124,4 2,7 2940 124,9 124,9 124,9 118,9 124,4 -1,9
Application for Certification
Common Section for Model Year 2005
Enclosure 2 of Section 12 Page 3 of 3
CS Part 1 Issued: 05/24/04
Time Fuel
Temperature 1 Fuel
Temperature 2 Average Fuel Temperature
Corrected Average Fuel Temperature
Vapor Temperature
Fuel Tank Pressure
[ s ] [ °F ] [ °F ] [ °F ] [ °F ] [ °F ] [ hPa ]
2970 125,2 125,2 125,2 119,2 124,4 0,9 3000 125,2 125,2 125,2 119,2 124,7 2,2 3030 125,2 125,5 125,3 119,3 124,9 0,7 3060 125,2 125,2 125,2 119,2 124,9 0,1 3090 125,7 125,7 125,7 119,7 125,2 -1,2 3120 125,7 126,0 125,9 119,9 125,2 -0,8 3150 126,0 126,0 126,0 120,0 125,2 -1,8 3180 126,3 126,6 126,4 120,4 125,5 -3,1 3210 126,3 126,6 126,4 120,4 125,5 -0,9 3240 126,8 126,8 126,8 120,8 126,3 -1,1 3270 126,6 126,8 126,7 120,7 126,3 -0,9 3300 126,8 127,1 127,0 121,0 126,3 -1,4 3330 127,1 127,4 127,3 121,3 126,6 -1,5 3960 127,4 127,7 127,5 121,5 126,6 -1,0 3990 127,7 127,4 127,5 121,5 127,1 -0,4 3420 127,7 127,7 127,7 121,7 127,1 -2,4 3450 127,7 127,9 127,8 121,8 127,4 -0,3 3480 127,9 128,2 128,1 122,1 127,4 -1,7 3510 128,2 128,2 128,2 122,2 127,7 -1,5 3540 128,5 128,5 128,5 122,5 127,9 -2,2 3570 128,5 129,0 128,8 122,8 127,7 -1,0 3600 128,5 128,8 128,6 122,6 128,2 0,1 3630 128,8 129,0 128,9 122,9 128,2 -2,2 3660 129,0 129,0 129,0 123,0 128,2 -1,0 3690 129,0 129,3 129,2 123,2 128,5 -0,1 3720 129,3 129,3 129,3 123,3 128,5 0,3 3750 129,3 129,6 129,5 123,5 128,8 -1,3 3780 129,6 129,9 129,7 123,7 129,0 -0,6 3810 129,9 129,9 129,9 123,9 129,3 -0,4 3840 130,1 130,1 130,1 124,1 129,6 -1,4 3870 129,9 130,1 130,0 124,0 129,3 -1,3 3900 130,1 130,1 130,1 124,1 129,3 -0,7 3930 130,4 130,4 130,4 124,4 129,3 -0,7 3960 130,1 130,4 130,3 124,3 129,6 -1,3 3990 130,4 130,7 130,6 124,6 130,1 -0,2 4020 130,7 130,7 130,7 124,7 130,1 -1,2 4050 131,0 130,7 130,8 124,8 130,1 0,2 4080 131,0 131,2 131,1 125,1 130,4 -0,2 4110 131,2 131,0 131,1 125,1 130,4 0,5 4140 131,2 131,5 131,4 125,4 130,7 1,0 4170 131,2 131,5 131,4 125,4 131,0 0,3 4200 131,2 131,5 131,4 125,4 131,0 -0,5 4230 131,5 131,8 131,7 125,7 131,0 -0,5 4260 131,8 131,8 131,8 125,8 131,2 0,9 4290 131,8 132,1 131,9 125,9 131,2 0,3 4320 132,1 132,3 132,2 126,2 131,2 0,5
Application for Certification
Common Section for Model Year 2005
Enclosure 3 of Section 12Page 1 of 4
CS Part 1 Issued: 04/24/04
Application for Certification
Common Section for Model Year 2005
Enclosure 3 of Section 12Page 2 of 4
CS Part 1 Issued: 04/24/04
Application for Certification
Common Section for Model Year 2005
Enclosure 3 of Section 12Page 3 of 4
CS Part 1 Issued: 04/24/04
Application for Certification
Common Section for Model Year 2005
Enclosure 3 of Section 12Page 4 of 4
CS Part 1 Issued: 04/24/04
Application for Certification
Common Section for Model Year 2005
Enclosure 4 of Section 12Page 1 of 3
CS Part 1 Issued: 04/24/04
Test Vehicle Data
Vehicle Type: E65
Mileage: 2962 mi
fuel tank volume 85.0 l
fuel volume 34.0 l
Ambient Conditions
Weather sunny, 10% clouds
wind speed < 15 mph
ambient temp: start: end:
97.0 °F 135.5 °F
Surface temp.: start end:
98.5 °F 141 °F
Test Data
Date of test 07/25/99
Engine start: 11:52
Measure start 11:53
Measure Stop 13:04
Test Track: FAA Exponent, Phoenix, Arizona USA
Time Fuel
Temperature 1 Fuel
Temperature 2 Average Fuel Temperature
Corrected Average Fuel Temperature
Vapor Temperature
Fuel Tank Pressure
[ s ] [ °F ] [ °F ] [ °F ] [ °F ] [ °F ] [ in H2O ]
0 97,22 97,10 97,16 95,00 98,25 -0,19 30 97,35 97,19 97,27 95,12 98,63 -0,13 60 97,52 97,34 97,43 95,27 98,72 -0,13 90 97,66 97,55 97,61 95,45 98,63 -0,18
120 97,88 97,72 97,80 95,64 98,33 -0,46 150 98,03 97,93 97,98 95,82 98,92 -0,73 180 98,24 98,15 98,19 96,04 99,10 -0,22 210 98,30 98,12 98,21 96,05 98,71 -0,08 240 98,55 98,20 98,37 96,21 98,78 0,34 270 98,63 98,41 98,52 96,37 99,00 0,20 300 98,96 98,64 98,80 96,64 99,12 -0,98 330 99,13 98,94 99,03 96,88 99,36 -0,98 360 99,28 99,08 99,18 97,02 99,65 -4,23 390 99,30 99,06 99,18 97,02 99,60 -1,77 420 99,52 99,31 99,42 97,26 99,99 -1,72 450 99,68 99,53 99,60 97,45 100,29 -3,65 480 99,82 99,59 99,71 97,55 100,55 -1,69 510 100,08 99,84 99,96 97,80 100,45 -3,55 540 100,28 99,98 100,13 97,97 100,67 -1,68 570 100,45 100,11 100,28 98,12 101,07 -0,44 600 100,76 100,38 100,57 98,41 101,21 -0,06 630 100,96 100,58 100,77 98,61 101,35 -0,12 660 101,09 100,73 100,91 98,75 101,70 -1,68 690 101,34 101,12 101,23 99,07 101,83 -3,64 720 101,54 101,35 101,45 99,29 102,01 -3,58 750 101,57 101,43 101,50 99,34 101,93 -2,87 780 101,64 101,51 101,58 99,42 102,11 -5,19 810 101,88 101,57 101,73 99,57 102,49 -4,85 840 102,05 101,76 101,90 99,75 102,90 -3,20 870 102,31 102,12 102,22 100,06 103,09 -2,74 900 102,51 102,27 102,39 100,23 103,38 -1,80 930 102,78 102,53 102,65 100,50 103,72 -0,30 960 103,09 102,57 102,83 100,67 103,85 -0,07 990 103,06 102,61 102,84 100,68 104,05 -0,09
1020 103,28 103,03 103,15 101,00 104,15 -1,30 1050 103,58 103,33 103,46 101,30 104,56 -3,85 1080 103,73 103,54 103,64 101,48 104,76 -1,20 1110 103,95 103,61 103,78 101,62 105,02 -4,77 1140 104,21 103,84 104,03 101,87 105,00 -1,67 1170 104,42 104,04 104,23 102,07 104,99 -2,10 1200 104,84 104,43 104,63 102,48 105,13 -3,42 1230 104,79 104,48 104,64 102,48 105,44 -1,28 1260 104,93 104,65 104,79 102,63 105,64 -2,84 1290 105,16 104,90 105,03 102,87 105,80 -0,23
Application for Certification
Common Section for Model Year 2005
Enclosure 4 of Section 12Page 2 of 3
CS Part 1 Issued: 04/24/04
Time Fuel
Temperature 1 Fuel
Temperature 2 Average Fuel Temperature
Corrected Average Fuel Temperature
Vapor Temperature
Fuel Tank Pressure
[ s ] [ °F ] [ °F ] [ °F ] [ °F ] [ °F ] [ in H2O ]
1320 105,32 105,13 105,22 103,07 105,96 -0,16 1350 105,69 105,30 105,50 103,34 106,36 -0,14 1380 105,87 105,55 105,71 103,55 106,66 -0,73 1410 106,06 105,82 105,94 103,78 106,87 -0,96 1440 106,29 106,09 106,19 104,03 106,99 -1,13 1470 106,51 106,28 106,40 104,24 107,04 -1,26 1500 106,55 106,36 106,45 104,29 107,14 -1,99 1530 106,79 106,49 106,64 104,48 107,30 -2,15 1560 106,98 106,76 106,87 104,71 107,55 -1,80 1590 107,10 106,89 107,00 104,84 107,63 -1,64 1620 107,32 107,07 107,19 105,04 107,98 -1,48 1650 107,53 107,17 107,35 105,19 108,18 -0,78 1680 107,78 107,35 107,56 105,40 108,34 -0,03 1710 107,94 107,50 107,72 105,56 108,53 -0,02 1740 108,21 107,84 108,02 105,86 108,46 -0,96 1770 108,38 108,06 108,22 106,06 108,87 -1,98 1800 108,53 108,24 108,38 106,22 109,27 -1,25 1830 108,68 108,47 108,57 106,42 109,51 -1,56 1860 108,96 108,59 108,77 106,61 109,62 -2,07 1890 109,08 108,75 108,92 106,76 109,68 -1,94 1920 109,24 109,07 109,15 106,99 110,00 -1,30 1950 109,45 109,19 109,32 107,16 110,15 -2,07 1980 109,73 109,45 109,59 107,43 110,18 -3,18 2010 109,94 109,72 109,83 107,67 110,35 -0,43 2040 110,16 109,90 110,03 107,87 110,57 -0,04 2070 110,67 110,20 110,43 108,27 110,57 -0,09 2100 110,64 110,27 110,46 108,30 110,71 -1,18 2130 110,62 110,46 110,54 108,38 110,81 -1,90 2160 110,84 110,65 110,75 108,59 111,21 -1,42 2190 111,07 110,83 110,95 108,79 111,25 -2,04 2220 111,18 110,86 111,02 108,86 111,51 -2,00 2250 111,11 110,90 111,01 108,85 111,74 -2,64 2280 111,42 111,15 111,29 109,13 111,90 -1,60 2310 111,47 111,22 111,34 109,19 111,86 -1,41 2340 111,80 111,48 111,64 109,48 112,02 -1,31 2370 112,15 111,80 111,98 109,82 112,32 -0,24 2400 112,21 111,87 112,04 109,88 112,70 -0,11 2430 112,52 112,20 112,36 110,20 113,02 -0,13 2460 112,73 112,30 112,52 110,36 113,06 -1,21 2490 112,84 112,51 112,68 110,52 113,26 -1,93 2520 113,00 112,74 112,87 110,71 113,65 -1,20 2550 113,33 112,96 113,14 110,98 113,90 -1,86 2580 113,40 113,18 113,29 111,13 113,82 -2,66 2610 113,75 113,42 113,58 111,43 114,05 -1,46 2640 114,01 113,58 113,80 111,64 114,16 -2,09 2670 114,22 113,70 113,96 111,80 114,19 -1,82 2700 114,26 113,90 114,08 111,92 114,41 -1,19 2730 114,47 114,19 114,33 112,17 114,70 -0,32 2760 114,73 114,50 114,62 112,46 115,06 -0,09 2790 114,88 114,63 114,76 112,60 115,36 -0,09 2820 115,04 114,79 114,91 112,75 115,65 -1,88 2850 115,13 114,91 115,02 112,86 115,71 -1,80 2880 115,33 115,07 115,20 113,04 115,67 -3,23 2910 115,34 115,10 115,22 113,06 115,85 -3,23 2940 115,51 115,25 115,38 113,22 116,00 -1,35 2970 115,80 115,42 115,61 113,45 116,21 -1,95 3000 115,93 115,54 115,73 113,58 116,46 -2,24
Application for Certification
Common Section for Model Year 2005
Enclosure 4 of Section 12Page 3 of 3
CS Part 1 Issued: 04/24/04
Time Fuel
Temperature 1 Fuel
Temperature 2 Average Fuel Temperature
Corrected Average Fuel Temperature
Vapor Temperature
Fuel Tank Pressure
[ s ] [ °F ] [ °F ] [ °F ] [ °F ] [ °F ] [ in H2O ]
3030 115,85 115,54 115,70 113,54 116,64 -4,14 3060 116,01 115,81 115,91 113,75 116,72 -4,59 3090 116,25 116,00 116,13 113,97 117,14 -0,90 3120 116,46 116,18 116,32 114,16 117,69 0,00 3150 116,72 116,38 116,55 114,39 118,33 -0,08 3180 117,01 116,65 116,83 114,67 118,69 -1,84 3210 117,02 116,73 116,88 114,72 118,86 -2,63 3240 117,25 116,99 117,12 114,96 118,83 -1,44 3270 117,49 117,06 117,27 115,12 119,15 -3,57 3300 117,57 117,22 117,39 115,24 119,04 -1,70 3330 117,91 117,48 117,69 115,54 119,19 -3,50 3360 118,20 117,70 117,95 115,80 119,59 -1,79 3390 118,34 117,87 118,11 115,95 119,79 -2,96 3420 118,42 118,11 118,27 116,11 119,85 -2,24 3450 118,61 118,27 118,44 116,28 120,33 -0,38 3480 118,89 118,46 118,67 116,51 120,59 -0,09 3510 119,06 118,74 118,90 116,74 120,87 -0,09 3540 119,27 118,93 119,10 116,94 121,00 -2,27 3570 119,50 119,13 119,32 117,16 120,95 -3,02 3600 119,58 119,20 119,39 117,23 121,23 -2,55 3630 119,49 119,30 119,39 117,23 121,20 -0,08 3660 119,63 119,45 119,54 117,38 121,27 -0,25 3690 119,67 119,53 119,60 117,44 121,70 -0,16 3720 119,85 119,68 119,76 117,60 122,01 -0,24 3750 120,07 119,85 119,96 117,80 122,26 -0,19 3780 120,17 120,03 120,10 117,94 122,43 -0,29 3810 120,46 120,16 120,31 118,15 122,64 -0,20 3840 120,63 120,37 120,50 118,34 123,00 -0,12 3870 120,81 120,52 120,66 118,51 123,13 -0,27 3900 121,04 120,82 120,93 118,77 123,38 -0,17 3930 121,20 120,96 121,08 118,92 123,44 -0,24 3960 121,13 120,96 121,05 118,89 123,45 -0,11 3990 121,36 121,20 121,28 119,12 123,37 -0,13 4020 121,54 121,27 121,40 119,25 123,46 -0,12 4050 121,64 121,42 121,53 119,37 123,69 -0,10 4080 121,78 121,65 121,72 119,56 123,93 -0,13 4110 122,02 121,77 121,90 119,74 123,84 -0,09 4140 122,15 121,96 122,06 119,90 124,05 -0,14 4170 122,32 122,08 122,20 120,04 124,16 -0,03 4200 122,44 122,13 122,29 120,13 124,44 -0,06 4230 122,42 122,33 122,37 120,22 124,78 -0,06 4260 122,62 122,69 122,66 120,50 125,08 -0,06 4290 122,67 122,78 122,73 120,30 125,09 -0,04 4320 122,78 122,84 122,81 120,38 125,20 -0,08
Application for Certification
Common Section for Model Year 2005
Enclosure 5 of Section 12Page 1 of 3
CS Part 1 Issued: 04/24/04
Test Vehicle Data
Vehicle Type: R53
Mileage: 2179 mi
fuel tank volume 50.0 l
fuel volume 20.0 l
Ambient Conditions
Weather sunny
wind speed < 12 mph
ambient temp: start: end:
99.3°F 103.5°F
Surface temp.: start end:
135.3°F 147.4°F
Test Data
Date of test 07/26/2000
Engine start: 10:12
Measure start 10:13
Measure Stop 11:25
Test Track: FAA Exponent, Phoenix, Arizona USA
Time Fuel
Temperature
Corrected Fuel
Temperature Vapor
Temperature Fuel Tank Pressure
[ s ] [ °F ] [ °F ] [ °F ] [ in H2O ]
0 98,5 95,0 99,1 2,92 30 98,9 95,4 99,2 3,04 60 99,3 95,8 99,3 3,05 90 99,5 96,0 99,5 5,07
120 99,8 96,2 99,6 6,86 150 100,0 96,4 99,5 3,61 180 100,2 96,7 99,7 0,99 210 100,4 96,8 99,8 0,06 240 100,8 97,2 100,0 -0,26 270 101,0 97,4 100,2 0,50 300 101,3 97,7 100,3 0,62 330 101,5 98,0 100,5 0,15 360 101,8 98,2 100,6 -1,17 390 102,0 98,4 100,9 0,55 420 102,1 98,5 101,1 -0,15 450 102,3 98,8 101,2 -0,94 480 102,6 99,1 101,1 0,84 510 102,8 99,3 101,4 0,38 540 103,2 99,6 101,6 0,15 570 103,4 99,9 101,6 -0,02 600 103,6 100,0 101,9 0,73 630 103,7 100,1 101,7 -0,31 660 103,9 100,4 101,9 0,61 690 104,1 100,6 102,1 0,16 720 104,5 101,0 102,0 0,35 750 104,7 101,1 102,1 0,37 780 104,9 101,4 102,0 -1,09 810 105,1 101,6 102,0 -1,21 840 105,5 101,9 102,2 -1,17 870 105,7 102,1 102,6 -1,21 900 105,9 102,4 102,5 0,29 930 106,2 102,6 102,7 0,17 960 106,5 102,9 103,2 0,07 990 106,6 103,1 103,2 -0,26
1020 106,9 103,3 103,0 -0,26 1050 107,3 103,7 103,3 0,43 1080 107,5 103,9 103,3 -0,19 1110 107,8 104,3 103,4 0,29 1140 107,9 104,4 103,8 0,10 1170 108,3 104,8 104,0 0,60 1200 108,4 104,9 104,0 0,11 1230 108,7 105,1 104,2 0,12 1260 108,9 105,3 104,3 0,14 1290 109,1 105,6 104,1 0,81
Application for Certification
Common Section for Model Year 2005
Enclosure 5 of Section 12Page 2 of 3
CS Part 1 Issued: 04/24/04
Time Fuel
Temperature
Corrected Fuel
Temperature Vapor
Temperature Fuel Tank Pressure
[ s ] [ °F ] [ °F ] [ °F ] [ in H2O ]
1320 109,3 105,8 104,0 -0,24 1350 109,6 106,1 104,6 0,58 1380 109,7 106,1 104,0 -0,22 1410 109,9 106,3 103,8 -0,24 1440 110,0 106,4 103,9 -0,16 1470 110,1 106,5 103,9 -0,15 1500 110,2 106,6 104,2 -0,15 1530 110,3 106,7 104,6 -0,60 1560 110,5 107,0 105,0 0,41 1590 110,7 107,2 105,1 0,12 1620 110,9 107,4 104,9 -0,13 1650 111,1 107,5 105,0 0,66 1680 111,3 107,7 105,3 0,89 1710 111,3 107,8 105,7 0,64 1740 111,5 107,9 105,9 -0,64 1770 111,7 108,1 106,1 0,21 1800 111,9 108,3 105,5 -0,24 1830 112,2 108,6 105,7 -0,21 1860 112,4 108,8 105,2 -0,22 1890 112,6 109,0 106,0 0,62 1920 112,7 109,1 106,1 0,41 1950 112,9 109,3 105,6 -0,24 1980 113,1 109,5 105,7 0,07 2010 113,2 109,7 106,1 0,55 2040 113,5 109,9 106,2 0,40 2070 113,6 110,0 105,7 -0,26 2100 113,8 110,2 105,6 -0,06 2130 113,9 110,3 105,7 -0,79 2160 114,1 110,6 106,5 0,40 2190 114,4 110,8 106,9 0,14 2220 114,6 111,0 106,6 -0,09 2250 114,6 111,1 106,8 0,71 2280 114,8 111,2 107,3 0,92 2310 115,0 111,4 107,3 0,80 2340 115,2 111,6 107,1 -0,35 2370 115,4 111,8 107,2 0,43 2400 115,6 112,1 107,6 -0,21 2430 115,8 112,3 107,7 -0,13 2460 116,0 112,5 107,1 -0,16 2490 116,1 112,6 107,4 0,67 2520 116,4 112,8 107,8 0,46 2550 116,6 113,0 107,5 -0,13 2580 116,7 113,2 107,7 0,10 2610 116,9 113,3 108,1 -0,11 2640 117,1 113,5 108,4 0,42 2670 117,2 113,7 107,9 -0,19 2700 117,3 113,7 108,1 -0,12 2730 117,5 113,9 108,2 -0,16 2760 117,6 114,0 108,7 -0,08 2790 117,7 114,2 108,9 -0,08 2820 117,8 114,3 108,9 0,18 2850 117,9 114,4 109,4 0,57 2880 118,0 114,4 109,3 -0,79 2910 118,2 114,7 109,4 -0,01 2940 118,5 115,0 108,9 -0,13 2970 118,8 115,2 109,2 0,54 3000 118,9 115,4 109,5 -0,17
Application for Certification
Common Section for Model Year 2005
Enclosure 5 of Section 12Page 3 of 3
CS Part 1 Issued: 04/24/04
Time Fuel
Temperature
Corrected Fuel
Temperature Vapor
Temperature Fuel Tank Pressure
[ s ] [ °F ] [ °F ] [ °F ] [ in H2O ]
3030 119,0 115,5 109,6 -0,66 3060 119,2 115,7 109,8 -1,16 3090 119,2 115,7 109,9 -0,68 3120 119,6 116,0 110,1 0,19 3150 119,7 116,2 110,2 0,71 3180 119,9 116,4 110,5 -0,09 3210 120,0 116,4 111,5 0,55 3240 120,2 116,6 111,0 -0,25 3270 120,3 116,7 111,2 -1,21 3300 120,4 116,8 111,3 0,55 3330 120,5 117,0 111,3 0,50 3360 120,7 117,1 111,3 -0,19 3390 120,8 117,3 111,2 -1,05 3420 120,9 117,4 111,8 0,24 3450 120,9 117,3 111,9 0,43 3480 121,1 117,5 111,9 0,10 3510 121,2 117,6 112,2 -0,13 3540 121,4 117,9 112,3 0,24 3570 121,7 118,1 112,0 0,37 3600 121,9 118,3 112,0 -0,77 3630 122,0 118,4 112,0 -0,22 3660 122,1 118,5 112,0 -0,55 3690 122,2 118,7 112,4 -1,12 3720 122,3 118,7 112,8 0,10 3750 122,4 118,9 112,7 0,68 3780 122,6 119,0 113,1 0,17 3810 122,6 119,1 113,2 -0,29 3840 122,8 119,2 113,0 -0,29 3870 123,0 119,5 113,1 0,40 3900 123,1 119,6 112,8 -0,25 3930 123,2 119,6 112,7 -0,57 3960 123,3 119,8 112,5 -0,29 3990 123,5 119,9 112,9 0,05 4020 123,7 120,1 112,9 -1,12 4050 123,7 120,1 113,2 -0,48 4080 123,8 120,3 113,6 -0,79 4110 123,9 120,3 113,2 0,46 4140 124,0 120,5 113,1 0,22 4170 124,1 120,6 113,4 -0,05 4200 124,2 120,6 112,4 -0,15 4230 124,2 120,7 112,3 -0,18 4260 124,4 120,8 112,3 -0,16 4290 124,4 120,8 112,1 -0,16 4310 124,3 120,8 111,9 -0,17
Application for Certification
Common Section for Model Year 2005
Enclosure 6 of Section 12Page 1 of 3
CS Part 1 Issued: 04/24/04
Test Vehicle Data
Vehicle Type: E85
Mileage: 51819
fuel tank volume 55.0 l
fuel volume 22.0 l
Ambient Conditions
Weather sunny, 10% clouds
wind speed < 7,5 mph
ambient temp: start: end:
97.0 °F 145 °F
Surface temp.: start end:
99 °F 147 °F
Test Data
Date of test 07/21/02
Engine start: 12:28
Measure start 12:28
Measure Stop 13:39
Test Track: FAA Exponent, Phoenix, Arizona USA
Time Fuel
Temperature 1 Fuel
Temperature 2 Average Fuel Temperature
Corrected Average Fuel Temperature
Vapor Temperature
Fuel Tank Pressure
[ s ] [ °F ] [ °F ] [ °F ] [ °F ] [ °F ] [ in H2O ]
0 99,04 99,20 99,12 95,00 98,25 -0,19 30 99,19 99,34 99,27 95,14 98,63 -0,13 60 99,27 99,43 99,35 95,23 98,72 -0,13 90 99,45 99,61 99,53 95,41 98,63 -0,18
120 99,51 99,66 99,58 95,46 98,33 -0,46 150 99,54 99,70 99,62 95,50 98,92 -0,73 180 99,88 100,03 99,96 95,83 99,10 -0,22 210 100,10 100,26 100,18 96,06 98,71 -0,08 240 100,51 100,67 100,59 96,47 98,78 0,34 270 100,80 100,96 100,88 96,76 99,00 0,20 300 101,07 101,23 101,15 97,03 99,12 -0,98 330 101,18 101,33 101,25 97,13 99,36 -0,98 360 101,27 101,43 101,35 97,23 99,65 -4,23 390 101,33 101,48 101,40 97,28 99,60 -1,77 420 101,63 101,79 101,71 97,59 99,99 -1,72 450 101,92 102,07 102,00 97,87 100,29 -3,65 480 102,21 102,37 102,29 98,17 100,55 -1,69 510 102,43 102,58 102,50 98,38 100,45 -3,55 540 102,57 102,73 102,65 98,53 100,67 -1,68 570 102,52 102,68 102,60 98,48 101,07 -0,44 600 102,76 102,92 102,84 98,72 101,21 -0,06 630 102,94 103,10 103,02 98,90 101,35 -0,12 660 103,15 103,30 103,22 99,10 101,70 -1,68 690 103,37 103,52 103,44 99,32 101,83 -3,64 720 103,64 103,79 103,71 99,59 102,01 -3,58 750 103,93 104,08 104,01 99,89 101,93 -2,87 780 104,10 104,26 104,18 100,06 102,11 -5,19 810 104,20 104,35 104,28 100,16 102,49 -4,85 840 104,53 104,68 104,61 100,49 102,90 -3,20 870 104,84 104,99 104,91 100,79 103,09 -2,74 900 105,17 105,32 105,24 101,12 103,38 -1,80 930 105,20 105,35 105,28 101,16 103,72 -0,30 960 105,29 105,44 105,36 101,24 103,85 -0,07 990 105,52 105,67 105,60 101,48 104,05 -0,09
1020 105,76 105,91 105,83 101,71 104,15 -1,30 1050 105,99 106,14 106,06 101,94 104,56 -3,85 1080 106,33 106,48 106,40 102,28 104,76 -1,20 1110 106,64 106,79 106,72 102,59 105,02 -4,77 1140 106,74 106,89 106,82 102,70 105,00 -1,67 1170 107,13 107,28 107,20 103,08 104,99 -2,10 1200 107,53 107,69 107,61 103,49 105,13 -3,42 1230 107,74 107,89 107,82 103,69 105,44 -1,28 1260 108,00 108,15 108,08 103,95 105,64 -2,84 1290 108,38 108,54 108,46 104,34 105,80 -0,23 1320 108,79 108,94 108,86 104,74 105,96 -0,16 1350 109,16 109,32 109,24 105,12 106,36 -0,14 1380 109,22 109,37 109,30 105,17 106,66 -0,73 1410 109,41 109,56 109,48 105,36 106,87 -0,96 1440 109,52 109,68 109,60 105,48 106,99 -1,13
Application for Certification
Common Section for Model Year 2005
Enclosure 6 of Section 12Page 2 of 3
CS Part 1 Issued: 04/24/04
Time Fuel
Temperature 1 Fuel
Temperature 2 Average Fuel Temperature
Corrected Average Fuel Temperature
Vapor Temperature
Fuel Tank Pressure
[ s ] [ °F ] [ °F ] [ °F ] [ °F ] [ °F ] [ in H2O ]
1470 109,51 109,66 109,59 105,47 107,04 -1,26 1500 109,68 109,83 109,76 105,64 107,14 -1,99 1530 109,77 109,93 109,85 105,73 107,30 -2,15 1560 109,92 110,07 110,00 105,88 107,55 -1,80 1590 110,09 110,24 110,16 106,04 107,63 -1,64 1620 110,41 110,57 110,49 106,37 107,98 -1,48 1650 110,45 110,60 110,52 106,40 108,18 -0,78 1680 110,63 110,79 110,71 106,59 108,34 -0,03 1710 111,03 111,18 111,11 106,98 108,53 -0,02 1740 111,17 111,32 111,25 107,12 108,46 -0,96 1770 111,42 111,57 111,49 107,37 108,87 -1,98 1800 111,59 111,74 111,66 107,54 109,27 -1,25 1830 111,80 111,96 111,88 107,76 109,51 -1,56 1860 112,15 112,30 112,23 108,11 109,62 -2,07 1890 112,35 112,51 112,43 108,31 109,68 -1,94 1920 112,54 112,69 112,61 108,49 110,00 -1,30 1950 112,74 112,89 112,82 108,70 110,15 -2,07 1980 112,84 112,99 112,92 108,79 110,18 -3,18 2010 112,95 113,11 113,03 108,91 110,35 -0,43 2040 113,12 113,28 113,20 109,08 110,57 -0,04 2070 113,43 113,58 113,51 109,38 110,57 -0,09 2100 113,71 113,87 113,79 109,67 110,71 -1,18 2130 114,03 114,19 114,11 109,99 110,81 -1,90 2160 114,28 114,44 114,36 110,24 111,21 -1,42 2190 114,44 114,60 114,52 110,40 111,25 -2,04 2220 114,66 114,82 114,74 110,62 111,51 -2,00 2250 114,94 115,10 115,02 110,90 111,74 -2,64 2280 115,17 115,33 115,25 111,13 111,90 -1,60 2310 115,34 115,50 115,42 111,30 111,86 -1,41 2340 115,53 115,69 115,61 111,49 112,02 -1,31 2370 115,86 116,02 115,94 111,82 112,32 -0,24 2400 116,14 116,30 116,22 112,10 112,70 -0,11 2430 116,10 116,26 116,18 112,06 113,02 -0,13 2460 116,27 116,43 116,35 112,23 113,06 -1,21 2490 116,37 116,53 116,45 112,33 113,26 -1,93 2520 116,48 116,64 116,56 112,44 113,65 -1,20 2550 116,68 116,84 116,76 112,64 113,90 -1,86 2580 116,76 116,92 116,84 112,72 113,82 -2,66 2610 117,03 117,19 117,11 112,99 114,05 -1,46 2640 117,27 117,43 117,35 113,23 114,16 -2,09 2670 117,38 117,53 117,46 113,34 114,19 -1,82 2700 117,60 117,76 117,68 113,56 114,41 -1,19 2730 117,66 117,81 117,73 113,61 114,70 -0,32 2760 117,86 118,01 117,94 113,81 115,06 -0,09 2790 117,99 118,14 118,07 113,94 115,36 -0,09 2820 118,05 118,21 118,13 114,01 115,65 -1,88 2850 118,13 118,28 118,20 114,08 115,71 -1,80 2880 118,37 118,53 118,45 114,33 115,67 -3,23 2910 118,51 118,67 118,59 114,47 115,85 -3,23 2940 118,73 118,88 118,81 114,68 116,00 -1,35 2970 118,91 119,06 118,98 114,86 116,21 -1,95 3000 119,09 119,24 119,16 115,04 116,46 -2,24 3030 119,21 119,36 119,28 115,16 116,64 -4,14 3060 119,50 119,65 119,57 115,45 116,72 -4,59 3090 119,72 119,88 119,80 115,68 117,14 -0,90 3120 120,07 120,22 120,14 116,02 117,69 0,00 3150 120,28 120,43 120,35 116,23 118,33 -0,08 3180 120,40 120,56 120,48 116,36 118,69 -1,84 3210 120,44 120,60 120,52 116,40 118,86 -2,63 3240 120,73 120,88 120,80 116,68 118,83 -1,44 3270 120,89 121,05 120,97 116,85 119,15 -3,57 3300 121,03 121,19 121,11 116,99 119,04 -1,70 3330 121,17 121,32 121,25 117,13 119,19 -3,50 3360 121,41 121,57 121,49 117,37 119,59 -1,79 3390 121,52 121,68 121,60 117,48 119,79 -2,96 3420 121,61 121,77 121,69 117,57 119,85 -2,24
Application for Certification
Common Section for Model Year 2005
Enclosure 6 of Section 12Page 3 of 3
CS Part 1 Issued: 04/24/04
Time Fuel
Temperature 1 Fuel
Temperature 2 Average Fuel Temperature
Corrected Average Fuel Temperature
Vapor Temperature
Fuel Tank Pressure
[ s ] [ °F ] [ °F ] [ °F ] [ °F ] [ °F ] [ in H2O ]
3450 121,78 121,94 121,86 117,74 120,33 -0,38 3480 122,00 122,16 122,08 117,96 120,59 -0,09 3510 122,18 122,33 122,26 118,14 120,87 -0,09 3540 122,16 122,32 122,24 118,12 121,00 -2,27 3570 122,33 122,49 122,41 118,29 120,95 -3,02 3600 122,43 122,59 122,51 118,39 121,23 -2,55 3630 122,68 122,83 122,75 118,63 121,20 -0,08 3660 122,79 122,95 122,87 118,75 121,27 -0,25 3690 122,83 122,99 122,91 118,79 121,70 -0,16 3720 123,00 123,16 123,08 118,96 122,01 -0,24 3750 123,14 123,29 123,21 119,09 122,26 -0,19 3780 123,25 123,41 123,33 119,21 122,43 -0,29 3810 123,39 123,55 123,47 119,35 122,64 -0,20 3840 123,56 123,72 123,64 119,52 123,00 -0,12 3870 123,70 123,85 123,78 119,66 123,13 -0,27 3900 123,83 123,99 123,91 119,79 123,38 -0,17 3930 123,93 124,08 124,01 119,88 123,44 -0,24 3960 124,10 124,25 124,18 120,05 123,45 -0,11 3990 124,18 124,33 124,25 120,13 123,37 -0,13 4020 124,36 124,52 124,44 120,32 123,46 -0,12 4050 124,56 124,71 124,64 120,51 123,69 -0,10 4080 124,67 124,82 124,75 120,63 123,93 -0,13 4110 124,74 124,90 124,82 120,70 123,84 -0,09 4140 124,86 125,02 124,94 120,82 124,05 -0,14 4170 124,97 125,12 125,05 120,92 124,16 -0,03 4200 125,06 125,21 125,14 121,01 124,44 -0,06 4230 125,20 125,36 125,28 121,16 124,78 -0,06 4260 125,39 125,54 125,47 121,35 125,08 -0,06 4290 125,37 125,54 125,46 121,11 125,09 -0,04 4320 125,39 125,56 125,47 121,12 125,20 -0,08
Application for Certification
Common Section for Model Year 2005
Enclosure 7 of Section 12Page 1 of 3
CS Part 1 Issued: 04/24/04
Test Vehicle Data
Vehicle Type: E46
Mileage: 474
fuel tank volume 65.0 l
fuel volume 26.0 l
Ambient Conditions
Weather sunny, 4 % clouds
wind speed 4.5 to 5.5 mph
ambient temp: start: end:
97.0 °F 101.3 °F
Surface temp.: start end:
131 °F 133 °F
Test Data
Date of test 05/04/01
Engine start: 10:14
Measure start 10:15
Measure Stop 11:27
Test Track: AGMC, Dubai
Time Fuel
Temperature 1 Fuel
Temperature 2 Average Fuel Temperature
Corrected Average Fuel Temperature
Vapor Temperature
Fuel Tank Pressure
[ s ] [ °F ] [ °F ] [ °F ] [ °F ] [ °F ] [ in H2O ]
0 98,50 98,94 98,72 95,00 101,47 -0,31 30 98,45 98,77 98,61 94,89 101,47 -0,28 60 98,45 98,77 98,61 94,89 101,30 -0,32 90 98,56 98,94 98,75 95,03 101,85 -0,28
120 98,56 98,88 98,72 95,00 101,91 -0,38 150 98,83 99,16 98,99 95,27 101,30 -0,35 180 98,88 98,94 98,91 95,19 101,80 -0,28 210 99,10 99,32 99,21 95,49 102,02 -0,28 240 99,05 99,32 99,19 95,47 102,13 -0,35 270 99,21 99,71 99,46 95,74 102,18 -0,42 300 99,38 99,76 99,57 95,85 102,57 -0,07 330 99,71 100,04 99,87 96,15 102,84 -0,16 360 100,15 100,37 100,26 96,54 102,13 -0,55 390 100,15 100,42 100,29 96,57 102,84 -0,56 420 100,31 100,59 100,45 96,73 103,00 -0,29 450 100,59 100,75 100,67 96,95 103,06 -0,35 480 100,75 100,97 100,86 97,14 103,44 -0,49 510 100,86 101,19 101,03 97,31 103,88 -0,16 540 101,08 101,41 101,25 97,53 103,88 -0,99 570 101,19 101,52 101,36 97,64 103,83 -0,42 600 101,08 101,63 101,36 97,64 104,16 -0,86 630 101,41 101,69 101,55 97,83 103,88 -0,39 660 101,63 101,63 101,63 97,91 104,05 -0,54 690 102,07 102,24 102,15 98,43 104,43 -0,38 720 101,96 102,24 102,10 98,38 104,49 -0,19 750 102,24 102,46 102,35 98,63 104,65 -0,44 780 102,57 102,84 102,70 98,98 104,65 -0,21 810 102,40 102,95 102,68 98,96 104,98 -1,42 840 102,40 103,06 102,73 99,01 105,04 -0,36 870 102,78 103,22 103,00 99,28 105,31 -0,18 900 102,78 103,39 103,09 99,37 105,48 -0,65 930 102,89 103,61 103,25 99,53 105,53 -0,65 960 103,11 103,50 103,31 99,59 105,75 0,00 990 103,77 104,05 103,91 100,19 105,70 -0,36
1020 103,33 104,05 103,69 99,97 105,86 -0,24 1050 103,55 104,10 103,83 100,11 105,75 -0,35 1080 103,77 104,43 104,10 100,38 106,14 -0,26 1110 104,27 104,65 104,46 100,74 106,03 -0,36 1140 104,21 104,71 104,46 100,74 106,30 -0,81 1170 104,60 104,87 104,73 101,02 106,30 -0,33 1200 104,76 105,26 105,01 101,29 106,25 -0,26 1230 104,71 105,26 104,98 101,26 106,41 -0,59 1260 105,04 105,31 105,17 101,45 106,58 -0,27 1290 104,71 105,37 105,04 101,32 106,63 -0,50 1320 105,09 105,53 105,31 101,59 106,85 -0,30 1350 105,04 105,53 105,28 101,56 106,96 -0,75 1380 105,48 105,86 105,67 101,95 106,96 -0,33 1410 105,20 105,75 105,48 101,76 106,90 -0,34 1440 105,15 105,92 105,53 101,81 106,96 -0,35 1470 105,15 105,92 105,53 101,81 107,23 -0,36
Application for Certification
Common Section for Model Year 2005
Enclosure 7 of Section 12Page 2 of 3
CS Part 1 Issued: 04/24/04
Time Fuel
Temperature 1 Fuel
Temperature 2 Average Fuel Temperature
Corrected Average Fuel Temperature
Vapor Temperature
Fuel Tank Pressure
[ s ] [ °F ] [ °F ] [ °F ] [ °F ] [ °F ] [ in H2O ]
1500 105,04 105,75 105,39 101,67 107,34 -0,38 1530 105,09 105,81 105,45 101,73 107,45 -0,34 1560 105,26 105,92 105,59 101,87 107,56 -0,32 1590 105,70 106,19 105,94 102,22 107,23 -0,14 1620 105,75 106,25 106,00 102,28 107,01 -0,17 1650 105,92 106,52 106,22 102,50 106,90 -0,26 1680 106,14 106,69 106,41 102,69 107,29 -0,13 1710 106,08 106,58 106,33 102,61 107,01 -0,12 1740 106,36 106,79 106,58 102,86 107,18 0,03 1770 106,41 107,01 106,71 102,99 107,01 0,19 1800 106,30 106,85 106,58 102,86 107,18 -0,05 1830 106,47 107,01 106,74 103,02 107,29 -0,16 1860 106,79 107,34 107,07 103,35 107,34 -0,23 1890 106,52 107,23 106,88 103,16 107,62 -0,28 1920 106,90 107,34 107,12 103,40 107,84 -0,29 1950 107,12 107,62 107,37 103,65 107,84 -0,21 1980 106,90 107,51 107,21 103,49 107,73 -0,28 2010 107,01 107,34 107,18 103,46 107,89 -0,28 2040 107,12 107,51 107,32 103,60 108,06 -0,22 2070 107,56 107,78 107,67 103,95 107,89 -0,23 2100 107,29 107,84 107,56 103,84 107,95 -0,23 2130 107,34 107,95 107,65 103,93 108,11 -0,25 2160 107,34 107,89 107,62 103,90 108,44 0,55 2190 107,73 108,28 108,00 104,28 108,33 -0,18 2220 107,84 108,17 108,00 104,28 108,17 -0,21 2250 108,00 108,44 108,22 104,50 108,55 -0,18 2280 108,06 108,44 108,25 104,53 108,72 -0,23 2310 108,00 108,50 108,25 104,53 108,55 -0,11 2340 107,95 108,44 108,20 104,48 108,44 -0,16 2370 108,17 108,55 108,36 104,64 108,44 0,17 2400 108,11 108,72 108,42 104,70 108,28 -0,10 2430 108,22 108,83 108,53 104,81 108,33 -0,13 2460 108,33 108,83 108,58 104,86 108,33 -0,28 2490 108,44 109,16 108,80 105,08 108,72 -0,27 2520 108,33 108,99 108,66 104,94 108,83 -0,18 2550 108,61 109,10 108,85 105,13 108,99 -0,18 2580 108,61 109,27 108,94 105,22 109,10 -0,25 2610 108,50 109,05 108,77 105,05 109,27 -0,30 2640 108,77 109,32 109,05 105,33 109,43 -0,04 2670 108,72 109,27 108,99 105,27 109,21 -0,23 2700 108,66 109,32 108,99 105,27 109,05 -0,26 2730 108,61 109,38 108,99 105,27 109,38 -0,25 2760 108,61 109,54 109,07 105,35 109,54 -0,24 2790 108,50 109,49 108,99 105,27 109,49 -0,23 2820 108,55 109,60 109,07 105,35 109,71 -0,25 2850 108,50 109,38 108,94 105,22 109,76 0,01 2880 108,88 109,54 109,21 105,49 109,93 -0,04 2910 108,99 109,54 109,27 105,55 109,93 0,10 2940 109,16 109,87 109,51 105,79 109,82 0,50 2970 109,27 109,93 109,60 105,88 109,54 -0,23 3000 109,38 109,87 109,62 105,90 109,71 -0,06 3030 109,54 110,04 109,79 106,07 109,87 0,14 3060 109,60 110,15 109,87 106,15 109,82 0,03 3090 109,71 110,04 109,87 106,15 109,93 -0,20 3120 110,09 110,75 110,42 106,70 109,98 -0,24 3150 110,37 110,97 110,67 106,95 109,98 0,16 3180 110,20 111,02 110,61 106,89 110,20 -0,02 3210 110,53 110,80 110,67 106,95 110,37 -0,07 3240 110,20 111,08 110,64 106,92 110,48 -0,05 3270 110,48 111,13 110,80 107,08 110,42 0,00 3300 110,48 111,08 110,78 107,06 110,75 -0,25 3330 110,59 111,24 110,91 107,19 110,70 -0,05 3360 110,59 111,63 111,11 107,39 110,86 -0,17 3390 110,75 111,30 111,02 107,30 110,70 -0,06 3420 110,91 111,79 111,35 107,63 111,02 -0,35 3450 111,19 111,90 111,55 107,83 111,13 -0,17
Application for Certification
Common Section for Model Year 2005
Enclosure 7 of Section 12Page 3 of 3
CS Part 1 Issued: 04/24/04
Time Fuel
Temperature 1 Fuel
Temperature 2 Average Fuel Temperature
Corrected Average Fuel Temperature
Vapor Temperature
Fuel Tank Pressure
[ s ] [ °F ] [ °F ] [ °F ] [ °F ] [ °F ] [ in H2O ]
3480 110,97 111,24 111,11 107,39 111,13 -0,20 3510 110,80 111,63 111,22 107,50 111,02 -0,20 3540 110,80 111,57 111,19 107,47 111,08 -0,12 3570 110,75 111,35 111,05 107,33 110,97 -0,14 3600 110,75 111,24 111,00 107,28 110,97 -0,26 3630 110,97 111,30 111,13 107,41 110,91 -0,37 3660 110,86 111,63 111,24 107,52 110,97 -0,20 3690 111,41 111,74 111,57 107,85 110,91 -0,34 3720 111,35 111,96 111,66 107,94 111,08 -0,33 3750 111,19 111,85 111,52 107,80 110,97 -0,30 3780 111,41 112,01 111,71 107,99 110,91 0,93 3810 111,41 112,07 111,74 108,02 111,19 -0,18 3840 111,74 112,23 111,99 108,27 111,24 0,65 3870 111,57 112,45 112,01 108,29 111,41 -0,17 3900 111,52 112,29 111,90 108,18 111,41 0,02 3930 111,52 112,01 111,77 108,05 111,63 -0,14 3960 111,90 112,40 112,15 108,43 111,96 0,00 3990 111,85 112,34 112,10 108,38 111,57 -0,09 4020 111,74 112,34 112,04 108,32 111,68 -0,06 4050 111,85 112,45 112,15 108,43 111,96 -0,30 4080 111,79 112,34 112,07 108,35 111,68 0,01 4110 111,79 112,51 112,15 108,43 111,85 -0,20 4140 111,79 112,51 112,15 108,43 111,68 -0,19 4170 111,85 112,45 112,15 108,43 111,79 -0,26 4200 112,23 112,51 112,37 108,65 111,74 -0,14 4230 112,29 113,00 112,65 108,93 112,12 -0,19 4260 112,23 112,40 112,32 108,60 112,12 -0,18 4290 112,45 112,40 112,43 108,82 112,23 -0,17 4320 112,48 112,59 112,53 108,92 112,34 -0,17
Application for Certification
Common Section for Model Year 2005
Enclosure 8 of Section 12Page 1 of 4
CS Part 1 Issued: 04/24/04
Test Vehicle Data
Vehicle Type: E65
Mileage: 1620
fuel tank volume 88.0 l
fuel volume 35.2 l
Ambient Conditions
Weather sunny, <20% clouds
wind speed < 13 mph
ambient temp: start: end:
95.1 °F 99.9 °F
Surface temp.: start end:
144.9 °F 149,5 °F
Test Data
Date of test 07/22/01
Engine start: 11:46
Measure start 11:47
Measure Stop 12:42
Test Track: FAA Exponent, Phoenix, Arizona USA
Time Fuel
Temperature 1 Fuel
Temperature 2 Average Fuel Temperature
Corrected Average Fuel Temperature
Vapor Temperature
Fuel Tank Pressure
[ s ] [ °F ] [ °F ] [ °F ] [ °F ] [ °F ] [ in H2O ]
0 95,64 95,48 95,56 95,00 95,42 -0,48 30 95,86 95,70 95,78 95,22 96,19 -0,69 60 95,97 95,81 95,89 95,33 96,03 -0,69 90 96,08 95,97 96,03 95,47 96,25 -0,67
120 96,25 96,19 96,22 95,66 96,58 -1,58 150 96,19 96,08 96,14 95,58 96,41 -0,68 180 96,25 96,08 96,16 95,60 96,52 -1,18 210 96,47 96,30 96,38 95,82 96,52 -2,01 240 96,52 96,30 96,41 95,85 96,47 -2,15 270 96,74 96,63 96,69 96,13 96,85 -2,14 300 96,96 96,80 96,88 96,32 97,29 -0,76 330 97,29 96,91 97,10 96,54 97,46 -0,56 360 97,46 97,18 97,32 96,76 97,57 -0,66 390 97,51 97,29 97,40 96,84 97,62 -0,50 420 97,68 97,62 97,65 97,09 97,62 -1,76 450 98,00 97,84 97,92 97,36 97,62 -0,89 480 98,11 97,95 98,03 97,47 98,11 -0,89 510 98,22 98,17 98,20 97,64 98,06 -0,47 540 98,44 98,22 98,33 97,77 98,22 -1,14 570 98,55 98,33 98,44 97,88 98,17 -0,49 600 98,55 98,39 98,47 97,91 98,33 -0,79 630 98,77 98,61 98,69 98,13 98,22 -0,64 660 98,88 98,66 98,77 98,21 98,66 -1,37 690 99,16 98,99 99,08 98,52 98,72 -0,68 720 99,05 99,05 99,05 98,49 98,77 -1,53 750 99,32 99,10 99,21 98,65 98,88 -2,10 780 99,49 99,27 99,38 98,82 98,94 -1,45 810 99,54 99,54 99,54 98,98 98,99 -0,78 840 99,71 99,65 99,68 99,12 98,94 -0,46 870 99,98 99,76 99,87 99,31 99,16 -0,52 900 100,04 99,87 99,95 99,39 99,16 -0,59 930 100,04 99,76 99,90 99,34 98,99 -0,75 960 100,31 100,15 100,23 99,67 99,16 -0,60 990 100,48 100,26 100,37 99,81 99,16 -1,01
1020 100,53 100,31 100,42 99,86 99,16 -1,49
Application for Certification
Common Section for Model Year 2005
Enclosure 8 of Section 12Page 2 of 4
CS Part 1 Issued: 04/24/04
Time Fuel
Temperature 1 Fuel
Temperature 2 Average Fuel Temperature
Corrected Average Fuel Temperature
Vapor Temperature
Fuel Tank Pressure
[ s ] [ °F ] [ °F ] [ °F ] [ °F ] [ °F ] [ in H2O ]
1050 100,70 100,53 100,61 100,05 99,32 -1,02 1080 100,86 100,64 100,75 100,19 99,27 -1,52 1110 100,81 100,70 100,75 100,19 99,60 -1,01 1140 101,14 100,97 101,05 100,49 99,32 -1,47 1170 101,25 101,08 101,16 100,60 99,43 -0,79 1200 101,58 101,14 101,36 100,80 99,60 -0,66 1230 101,47 101,36 101,41 100,85 99,21 -0,68 1260 101,80 101,47 101,63 101,07 99,38 -0,96 1290 101,91 101,58 101,74 101,18 99,38 -1,55 1320 101,96 101,74 101,85 101,29 99,43 -0,80 1350 102,07 101,85 101,96 101,40 99,76 -0,91 1380 102,23 101,91 102,07 101,51 99,60 -0,60 1410 102,34 102,07 102,21 101,65 99,60 -0,59 1440 102,51 102,18 102,34 101,78 99,60 -0,70 1470 102,51 102,29 102,40 101,84 99,32 -0,72 1500 102,56 102,34 102,45 101,89 99,16 -0,53 1530 102,78 102,40 102,59 102,03 98,99 -0,73 1560 102,84 102,56 102,70 102,14 99,21 -0,55 1590 102,95 102,73 102,84 102,28 100,37 -0,83 1620 103,06 102,84 102,95 102,39 101,08 -0,56 1650 103,22 103,00 103,11 102,55 100,09 -0,82 1680 103,44 103,17 103,31 102,75 100,15 -0,73 1710 103,61 103,28 103,44 102,88 99,93 -1,00 1740 103,72 103,39 103,55 102,99 100,59 -0,83 1770 103,83 103,55 103,69 103,13 100,31 -0,81 1800 103,83 103,77 103,80 103,24 100,75 -0,74 1830 104,16 103,88 104,02 103,46 101,52 -0,71 1860 104,05 103,94 103,99 103,43 101,47 -1,02 1890 104,16 103,88 104,02 103,46 101,19 -0,83 1920 104,38 104,27 104,32 103,76 100,81 -0,98 1950 104,27 104,16 104,21 103,65 101,03 -0,82 1980 104,60 104,49 104,54 103,98 101,03 -0,90 2010 104,65 104,54 104,60 104,04 100,53 -0,82 2040 104,65 104,38 104,51 103,95 100,70 -1,09 2070 104,82 104,71 104,76 104,20 100,75 -0,48 2100 105,04 104,65 104,84 104,28 100,81 -0,72 2130 105,20 105,04 105,12 104,56 100,86 -0,54 2160 105,26 104,98 105,12 104,56 100,81 -0,74 2190 105,26 105,09 105,17 104,61 101,58 -0,47 2220 105,59 105,26 105,42 104,86 101,85 -0,88 2250 105,75 105,37 105,56 105,00 101,25 -0,60 2280 105,92 105,59 105,75 105,19 101,25 -0,73 2310 106,02 105,70 105,86 105,30 101,36 -1,70 2340 105,97 105,81 105,89 105,33 101,63 -0,79 2370 106,24 105,92 106,08 105,52 102,89 -0,71 2400 106,35 106,02 106,19 105,63 102,12 -0,69
Application for Certification
Common Section for Model Year 2005
Enclosure 8 of Section 12Page 3 of 4
CS Part 1 Issued: 04/24/04
Time Fuel
Temperature 1 Fuel
Temperature 2 Average Fuel Temperature
Corrected Average Fuel Temperature
Vapor Temperature
Fuel Tank Pressure
[ s ] [ °F ] [ °F ] [ °F ] [ °F ] [ °F ] [ in H2O ]
2430 106,46 106,13 106,30 105,74 102,23 -0,91 2460 106,68 106,30 106,49 105,93 102,12 -0,71 2490 106,68 106,41 106,55 105,99 101,52 -0,76 2520 106,79 106,52 106,66 106,10 102,01 -0,65 2550 106,85 106,63 106,74 106,18 101,69 -0,65 2580 107,01 106,79 106,90 106,34 101,91 -0,84 2610 106,90 106,90 106,90 106,34 101,96 -0,93 2640 107,01 106,96 106,99 106,43 101,63 -0,56 2670 107,07 107,18 107,12 106,56 101,58 -0,95 2700 107,45 107,29 107,37 106,81 101,85 -0,91 2730 107,34 107,29 107,32 106,76 102,07 -0,63 2760 107,45 107,34 107,40 106,84 102,12 -0,50 2790 107,51 107,34 107,43 106,87 102,56 -0,71 2820 107,67 107,45 107,56 107,00 102,56 -0,84 2850 107,78 107,56 107,67 107,11 102,67 -0,71 2880 107,73 107,67 107,70 107,14 102,12 -0,74 2910 108,00 107,78 107,89 107,33 102,51 -1,48 2940 107,95 107,67 107,81 107,25 102,51 -0,96 2970 108,28 108,11 108,19 107,63 102,95 -0,77 3000 108,44 108,28 108,36 107,80 102,73 -1,98 3030 108,61 108,22 108,41 107,85 102,73 -1,64 3060 108,72 108,33 108,52 107,96 103,55 -1,69 3090 108,66 108,39 108,52 107,96 103,77 -0,87 3120 108,99 108,72 108,85 108,29 103,55 -0,52 3150 109,49 109,10 109,29 108,73 103,77 -0,56 3180 109,32 109,16 109,24 108,68 103,33 -0,77 3210 109,60 109,38 109,49 108,93 103,17 -1,07 3240 109,93 109,71 109,82 109,25 102,89 -1,96 3270 110,09 109,82 109,95 109,39 103,33 -0,91 3300 110,09 109,82 109,95 109,39 103,33 -1,42 3330 110,09 109,93 110,01 109,45 103,66 -0,43 3360 110,14 109,98 110,06 109,50 103,50 -1,51 3390 110,31 110,09 110,20 109,64 103,66 -0,54 3420 110,53 110,09 110,31 109,75 103,33 -0,88 3450 110,42 110,31 110,36 109,80 103,33 -0,69 3480 110,58 110,14 110,36 109,80 103,61 -1,09 3510 110,53 110,25 110,39 109,83 103,77 -0,84 3540 110,80 110,42 110,61 110,05 103,77 -0,99 3570 110,91 110,53 110,72 110,16 103,88 -1,68 3600 110,86 110,58 110,72 110,16 103,88 -1,44 3630 110,97 110,53 110,75 110,19 103,83 -0,83 3660 110,86 110,69 110,78 110,22 104,05 -0,39 3690 111,08 110,80 110,94 110,38 103,88 -1,25 3720 111,08 110,86 110,97 110,41 103,72 -0,74 3750 111,30 111,08 111,19 110,63 103,94 -0,56
Application for Certification
Common Section for Model Year 2005
Enclosure 8 of Section 12Page 4 of 4
CS Part 1 Issued: 04/24/04
Time Fuel
Temperature 1 Fuel
Temperature 2 Average Fuel Temperature
Corrected Average Fuel Temperature
Vapor Temperature
Fuel Tank Pressure
[ s ] [ °F ] [ °F ] [ °F ] [ °F ] [ °F ] [ in H2O ]
3780 111,52 111,19 111,35 110,79 103,99 -0,46 3810 111,46 111,41 111,44 110,88 103,72 -1,26 3840 111,57 111,57 111,57 111,01 104,27 -0,97 3870 111,74 111,63 111,68 111,12 104,16 -0,54 3900 111,90 111,57 111,74 111,18 103,88 -0,60 3930 111,79 111,52 111,66 111,10 103,66 -0,62 3960 112,18 111,79 111,99 111,42 103,88 -0,92 3990 112,12 111,85 111,99 111,42 105,26 -0,99 4020 112,18 111,96 112,07 111,51 105,09 -0,97 4050 112,34 112,12 112,23 111,67 104,71 -0,66 4080 112,34 112,07 112,20 111,64 104,82 -0,74 4110 112,34 112,23 112,29 111,73 104,16 -1,35 4140 112,40 112,12 112,26 111,70 105,31 -0,80 4170 112,40 112,18 112,29 111,73 104,43 -0,64 4200 112,56 112,29 112,42 111,86 104,82 -0,79 4230 112,73 112,34 112,53 111,97 104,60 -0,74 4260 112,45 112,40 112,42 111,86 104,76 -0,91 4290 112,56 112,34 112,45 111,56 104,71 -0,54 4320 112,67 112,45 112,56 111,67 104,93 -0,62
Application for Certification
Common Section for Model Year 2005
Enclosure 9 of Section 12Page 1 of 3
CS Part 1 Issued: 04/24/04
Test Vehicle Data
Vehicle Type: E60
Mileage: 2420
fuel tank volume 70.0 l
fuel volume 28.0 l
Ambient Conditions
Weather sunny, <10% clouds
wind speed < 5 mph
ambient temp: start: end:
97.2 °F 99.1 °F
Surface temp.: start end:
146.8 °F 144.3 °F
Test Data
Date of test 07/23/02
Engine start: 12:43
Measure start 12:44
Measure Stop 13:55
Test Track: FAA Exponent, Phoenix, Arizona USA
Time Fuel
Temperature 1 Fuel
Temperature 2 Average Fuel Temperature
Corrected Average Fuel Temperature
Vapor Temperature
Fuel Tank Pressure
[ s ] [ °F ] [ °F ] [ °F ] [ °F ] [ °F ] [ in H2O ]
0 98,55 98,54 98,55 95,00 100,01 5,80 30 98,70 98,57 98,63 95,09 99,88 5,82 60 98,90 98,88 98,89 95,34 99,57 5,81 90 99,18 99,09 99,14 95,59 99,75 5,43
120 99,38 99,37 99,37 95,83 99,89 5,78 150 99,43 99,36 99,40 95,85 99,97 5,72 180 99,27 99,52 99,39 95,85 99,99 5,67 210 99,34 99,44 99,39 95,84 99,96 5,56 240 99,55 99,56 99,56 96,01 99,97 5,75 270 99,69 99,75 99,72 96,17 100,13 5,59 300 99,86 100,19 100,02 96,48 100,45 5,75 330 100,03 100,28 100,16 96,61 100,69 5,76 360 100,06 100,61 100,33 96,79 100,90 5,67 390 100,25 100,80 100,53 96,98 101,03 5,75 420 100,35 100,82 100,58 97,04 101,23 5,79 450 100,42 100,95 100,69 97,14 101,41 5,78 480 100,65 101,17 100,91 97,37 101,48 5,71 510 100,85 101,38 101,11 97,57 101,36 5,72 540 101,02 101,33 101,18 97,63 101,46 5,72 570 101,25 101,61 101,43 97,88 101,57 5,61 600 101,45 101,93 101,69 98,14 101,67 5,61 630 101,76 102,15 101,95 98,41 101,72 5,54 660 101,91 102,19 102,05 98,50 101,77 5,48 690 102,04 102,57 102,31 98,76 101,96 5,42 720 102,09 102,70 102,39 98,85 102,02 5,50 750 102,15 102,95 102,55 99,01 102,11 5,46 780 102,46 103,09 102,77 99,23 102,11 5,09 810 102,56 103,16 102,86 99,32 102,06 5,18 840 102,70 103,47 103,09 99,54 102,05 5,33 870 102,95 103,60 103,28 99,73 102,22 5,24 900 103,16 103,94 103,55 100,00 102,17 5,18 930 103,33 103,98 103,65 100,11 102,32 5,13 960 103,66 104,21 103,94 100,39 102,47 5,17 990 103,83 104,35 104,09 100,54 102,49 5,14 1020 104,03 104,70 104,36 100,82 102,48 5,03 1050 104,18 104,90 104,54 101,00 102,41 4,84 1080 104,15 105,02 104,58 101,04 102,77 4,95 1110 104,15 104,92 104,53 100,99 102,92 4,79 1140 104,40 105,18 104,79 101,24 103,14 4,83 1170 104,52 105,37 104,94 101,40 103,33 4,71 1200 104,64 105,49 105,07 101,52 103,40 4,38
Application for Certification
Common Section for Model Year 2005
Enclosure 9 of Section 12Page 2 of 3
CS Part 1 Issued: 04/24/04
Time Fuel
Temperature 1 Fuel
Temperature 2 Average Fuel Temperature
Corrected Average Fuel Temperature
Vapor Temperature
Fuel Tank Pressure
[ s ] [ °F ] [ °F ] [ °F ] [ °F ] [ °F ] [ in H2O ]
1230 104,76 105,89 105,32 101,78 103,37 4,55 1260 104,99 106,31 105,65 102,11 103,33 4,33 1290 105,10 106,42 105,76 102,22 103,30 4,48 1320 105,25 106,25 105,75 102,21 103,78 4,45 1350 105,45 106,44 105,95 102,40 103,58 4,25 1380 105,66 106,58 106,12 102,57 103,42 4,37 1410 105,89 106,86 106,38 102,83 103,09 4,33 1440 106,17 106,86 106,51 102,97 102,85 4,28 1470 106,25 107,06 106,66 103,11 102,67 4,24 1500 106,54 107,21 106,88 103,33 102,61 4,21 1530 106,70 107,33 107,02 103,47 102,53 4,16 1560 106,86 107,43 107,15 103,60 103,08 4,17 1590 106,95 107,71 107,33 103,79 103,30 4,13 1620 107,08 107,95 107,51 103,97 103,19 4,02 1650 107,30 108,19 107,74 104,20 103,21 4,00 1680 107,44 108,30 107,87 104,32 103,44 3,91 1710 107,50 108,45 107,98 104,43 103,68 3,97 1740 107,61 108,52 108,06 104,52 103,80 3,90 1770 107,76 108,86 108,31 104,76 104,21 3,81 1800 107,91 109,04 108,47 104,93 104,30 3,83 1830 108,08 109,27 108,68 105,13 104,51 3,78 1860 108,16 109,32 108,74 105,19 104,13 3,80 1890 108,35 109,48 108,92 105,37 104,03 3,77 1920 108,57 109,62 109,10 105,55 104,27 3,75 1950 108,84 109,57 109,20 105,66 104,28 3,75 1980 108,95 109,57 109,26 105,72 104,05 3,70 2010 109,23 109,71 109,47 105,92 104,59 3,66 2040 109,39 109,96 109,68 106,13 105,07 3,54 2070 109,51 110,09 109,80 106,25 105,14 3,60 2100 109,63 110,27 109,95 106,40 104,59 3,56 2130 109,76 110,41 110,08 106,54 104,40 3,52 2160 109,96 110,63 110,29 106,75 105,11 3,49 2190 110,03 110,68 110,36 106,81 105,88 3,48 2220 110,24 110,58 110,41 106,87 105,76 3,44 2250 110,48 110,88 110,68 107,13 105,74 3,48 2280 110,67 111,12 110,90 107,35 105,91 3,46 2310 110,84 111,31 111,08 107,53 105,99 3,43 2340 111,03 111,47 111,25 107,70 105,97 3,43 2370 111,19 111,61 111,40 107,86 106,04 3,36 2400 111,37 111,67 111,52 107,97 105,98 3,35 2430 111,55 111,95 111,75 108,21 106,14 3,34 2460 111,77 112,31 112,04 108,49 105,74 3,30 2490 111,87 112,23 112,05 108,51 105,57 3,25 2520 111,98 112,45 112,22 108,67 106,22 3,22 2550 112,16 112,75 112,46 108,91 106,64 3,27 2580 112,30 112,86 112,58 109,04 106,15 3,18 2610 112,44 113,05 112,75 109,20 106,58 3,27 2640 112,68 113,30 112,99 109,45 106,72 3,25 2670 112,85 113,46 113,16 109,61 106,63 3,25 2700 113,03 113,49 113,26 109,71 106,11 3,24 2730 113,23 113,51 113,37 109,82 105,82 3,22 2760 113,42 113,55 113,48 109,94 105,73 3,22 2790 113,56 113,76 113,66 110,11 105,69 3,21 2820 113,70 113,98 113,84 110,29 105,69 3,20 2850 113,89 114,37 114,13 110,58 106,35 3,18
Application for Certification
Common Section for Model Year 2005
Enclosure 9 of Section 12Page 3 of 3
CS Part 1 Issued: 04/24/04
Time Fuel
Temperature 1 Fuel
Temperature 2 Average Fuel Temperature
Corrected Average Fuel Temperature
Vapor Temperature
Fuel Tank Pressure
[ s ] [ °F ] [ °F ] [ °F ] [ °F ] [ °F ] [ in H2O ]
2880 114,12 114,64 114,38 110,83 106,52 3,08 2910 114,28 114,80 114,54 110,99 106,62 2,96 2940 114,34 114,83 114,59 111,04 107,52 3,18 2970 114,40 114,75 114,58 111,03 107,26 3,17 3000 114,52 114,99 114,76 111,21 107,41 3,16 3030 114,70 115,11 114,90 111,36 107,07 3,09 3060 114,90 115,34 115,12 111,57 107,17 3,02 3090 115,05 115,41 115,23 111,69 107,15 3,03 3120 115,21 115,59 115,40 111,85 107,26 3,06 3150 115,27 115,76 115,51 111,97 107,79 3,01 3180 115,35 115,87 115,61 112,07 107,56 2,68 3210 115,55 116,12 115,84 112,29 108,00 2,99 3240 115,73 116,29 116,01 112,46 108,16 3,04 3270 115,85 116,40 116,12 112,58 107,93 2,60 3300 115,92 116,45 116,18 112,64 107,66 3,10 3330 116,07 116,50 116,29 112,74 107,71 2,97 3360 116,27 116,50 116,39 112,84 107,67 3,02 3390 116,39 116,94 116,67 113,12 107,59 2,96 3420 116,54 117,13 116,84 113,29 107,27 3,06 3450 116,64 117,21 116,92 113,38 106,94 2,78 3480 116,75 117,25 117,00 113,45 107,26 2,91 3510 116,89 117,26 117,08 113,53 107,19 2,78 3540 117,00 117,53 117,26 113,72 107,34 2,62 3570 117,09 117,61 117,35 113,80 107,97 2,76 3600 117,22 117,72 117,47 113,93 108,18 2,51 3630 117,35 117,77 117,56 114,02 107,57 3,06 3660 117,54 117,79 117,67 114,12 107,42 3,08 3690 117,65 117,97 117,81 114,26 107,47 2,85 3720 117,74 118,18 117,96 114,42 107,27 2,99 3750 117,77 118,22 117,99 114,45 107,04 2,92 3780 117,92 118,39 118,16 114,61 107,44 2,83 3810 117,98 118,53 118,25 114,71 107,17 3,00 3840 118,04 118,61 118,32 114,78 107,02 2,99 3870 118,21 118,81 118,51 114,96 106,91 2,81 3900 118,36 119,03 118,69 115,15 106,72 2,99 3930 118,56 119,07 118,82 115,27 106,62 2,90 3960 118,77 119,14 118,96 115,41 106,42 2,97 3990 118,94 119,23 119,08 115,54 106,91 3,03 4020 118,97 119,23 119,10 115,56 106,64 3,02 4050 119,09 119,36 119,22 115,68 106,51 2,98 4080 119,23 119,65 119,44 115,89 106,93 2,92 4110 119,34 119,73 119,53 115,99 107,02 2,97 4140 119,38 119,68 119,53 115,99 106,94 2,92 4170 119,54 119,85 119,69 116,15 107,20 2,97 4200 119,62 119,78 119,70 116,16 107,27 2,97 4230 119,73 119,82 119,77 116,23 106,54 2,97 4260 119,77 120,08 119,93 116,38 105,97 2,97 4290 119,73 119,82 119,77 115,89 106,54 2,97 4320 119,54 119,68 119,61 115,72 106,94 2,97
Application for Certification
Common Section for Model Year 2005
Section 17
Page 1 of 4
CS Part 1 Issued: 04/24/04 17. California ARB Information 17.1. Statements 17.1.1. Drivability
The 2005 model year BMW vehicles do satisfy our customary drivability performance requirements for vehicles sold in the United States.
17.1.2. Label Durability
BMW states that the tune-up labels are designed to be durable for the vehicle's total expected life, under the conditions in the area where the labels are attached. Typical vehicle environmental conditions shall include, but are not limited to, exposure to engine lubricants and coolants, under hood temperatures, steam cleaning, and paints or paint solvents.
17.1.3. Fill Pipe
BMW states that all vehicles meet the requirements of MAC 81-012 and CAC, Section 2290 17.1.4. Production Vehicles versus Test Vehicles
BMW states that in regard to the emission control systems and all related parameters the production vehicles will be identical to the test vehicles which are used for certification testing.
17.1.5. Continuity of Emissions in the temperature range of 20 to 86 Degrees F
BMW states that there is no discontinuity in emissions of NMOG, CO, NOx and HCHO measured on the Federal Test Procedure in the temperature range of 20 to 86 degrees F.
17.1.6. I/M Test Procedure Statement
Based on our engineering evaluation all light-duty vehicles and light-duty trucks comply with the I/M requirements at ambient temperature from 35 to 68 degrees Fahrenheit. (Refer to Common Section, Section 8, Item 8.3)
17.1.7. High Altitude Requirements
The computer-controlled multipoint fuel injection system meters fuel based on air mass flow and is self compensating. Therefore all BMW test groups comply with the high altitude requirements. (see Mail Out 86-23)
Application for Certification
Common Section for Model Year 2005
Section 17
Page 2 of 4
CS Part 1 Issued: 04/24/04 17.1.8. Test and Service Accumulation Fuel
All fuels used for emission certification testing ( CARB: Phase II ) or service accumulation comply with applicable regulation.
17.1.9. Lubricants
All lubricants to be used in test vehicles comply with applicable regulations. There are no differences between proposed vehicle lubricants and proposed production vehicle lubricants.
17.1.10. Test Facility and Equipment
The facility and equipment to be used for mileage accumulation and emission testing comply with all applicable regulations.
17.1.11. Unscheduled Maintenance 17.1.11.1. Diagnostic Procedures
In the event that an unscheduled maintenance on one of the certification test vehicles might become necessary, BMW uses the on-board and service diagnostic system.
17.1.11.2. Procedures for Evaluating Drivability
During mileage accumulation of our certification test vehicles, at the various test facilities, all personnel involved are instructed to report any abnormal vehicle performance. Drivability evaluation and diagnosis of drivability problems is being performed by means of an engineering judgment attained through the joint efforts of a certification task force, consisting of highly qualified and experienced members of BMW's certification sections. To assist in the decision making, the "Trouble Shooting Guide" and service manuals for transmission, rear axle, etc. are being used.
17.1.11.3. Blanket Approval List
We do not anticipate any allowable unscheduled maintenance on items, other than those listed in MSAPC Advisory Circular No. 4A - 1.
Application for Certification
Common Section for Model Year 2005
Section 17
Page 3 of 4
CS Part 1 Issued: 04/24/04 17.1.12. Warranty Statement
Our statement with regard to the Emission Control System Warranty complies with the Paragraphs contained in the provisions of Title 13 of Californian Code of Federal Regulations, Chapter 1, Article 6. A sample of the warranty booklet, which contains this Statement, will be sent under separate cover.
17.2. Fill Pipe Specification Refer to Section 17.2. of respective application 17.3. Projected Sales Confidential information: Refer to Common Section, Section 16.13 17.4. Evaporative Emission Deterioration
Evaporative Emission Family Enclosure to Common Section, Section 17
5BMXR0160E39 1
5BMXR0136E46 2
5BMXR0158E65 3
5BMXR0093R50 4
5BMXR0128E85 5
5BMXR0134M56 6
5BMXR0158N73 7
5BMXR0090E60 8
Application for Certification
Common Section for Model Year 2005
Section 17
Page 4 of 4
CS Part 1 Issued: 04/24/04 17.5. Supplemental Data Sheets Refer to Section 17.5 of respective application 17.6. Parts List Refer to Part 2 of the respective application, Section 1
Application for Certification
Common Section for Model Year 2005
Enclosure 1to Section 17Page 1 of 6
CS Part 1 Issued: 04/24/04 Evaporative Emission Family 5BMXR0160E39 1. Evaporative Family Identification
5BMXR0160E39
Evap Code 39 – 53 –4.4 39 – 53 – 3.0 39 – 53 – 4.8
Models X5 4.4i X5 3.0i X5 4.8is
2. Parameters of Evaporative Family Refer to Common Section, Section 3.1 3. Selection of Emission Data Vehicle for Evaporative Emission 3.1. Worst Case Selection
The Worst Case selection is carried out according to the provisions in 40 CFR § 86.1828-01 (b)(3)
Evaporative / refueling control system
Evap. Code Model Canister absorptive material
Purge system configuration
Purge strategy Worst Case
3. 39 - 53 - 4.4 X5 4.4i
3. 39 - 53 - 3.0 X5 3.0i
3. 39 - 53 - 4.8 X5 4.8is
granulated charcoal
tank - evaporative canister and evaporative canister - engine are connected alternatively by means of the Fuel Tank Purge Valve
Computer controlled by ECM
X *)
*) 2-day / 3-day Sequence Test Results,
For ORVR Test Results: The Model Year 1998 528i with evaporative code 39-2.8 is still worst case regarding the
evaporative emissions. The Evaporative Emission Data generated for the 1998 MY, Engine Family WBMXV02.8M52 are carried over for Model Year 2005.
Application for Certification
Common Section for Model Year 2005
Enclosure 1to Section 17Page 2 of 6
CS Part 1 Issued: 04/24/04
3.2.2 ORVR Test Results: Carryover of the Evaporative Emission Data generated for the 1998 MY, Engine Family WBMXV02.8M52
Engine Family WBMXV02.8M52
Vehicle Identification Number B W00 013
Evaporative Emission Code 39 - 2.8
Model 528i
Emission Control System: 2TWC, 2H02S(2), SFI, AIR
Displacement 2793 cm. cu.
Engine Code 2.8/5 A4
Evaporative Family WBMXR0160E39
Equivalent Test Weight 3750 lb.
Actual Vehicle Weight
Curb Weight 3505 lb.
Drive Axle Weight 1698 lb.
Test Horsepower 7.1 hp
Coast-Down Time 17.50 sec
Air Conditioning included
Transmission Type automatic four-speed
Transmission Code A4S27
Axle Ratio 4.10
N/V Ratio 39.89
Tire Manufacturer Michelin
Tire Size 225/60 R 15
Odometer Calibration
Correction Factor 0.988
Initial Correction 86 mi
Application for Certification
Common Section for Model Year 2005
Enclosure 1to Section 17Page 3 of 6
CS Part 1 Issued: 04/24/04 4. Selection of Durability Data Vehicle for Evaporative Emissions and for Refueling Emissions 4.1. Worst Case Selection
The Worst Case selection is carried out according to the provisions in 40 CFR § 86.1824-01 (b), 40 CFR § 86.1825-01 (b)
Evaporative / refueling control system
Evap. Code Model Canister absorptive material
Purge system configuration
Purge strategy Worst Case
3. 39 - 53 - 4.4 X5 4.4i
3. 39 - 53 - 3.0 X5 3.0i
3. 39 - 53 - 4.8 X5 4.8is
granulated charcoal
tank - evaporative canister and evaporative canister - engine are connected alternatively by means of the Fuel Tank Purge Valve
Computer controlled by ECM
X *)
*) The Model Year 1998 528i with evaporative code 39-2.8 is still worst case regarding the
evaporative emissions. The Evaporative Emission Data generated for the 1999 MY, Engine Family YBMXR0160E39 are carried over for Model Year 2005.
4.2. Test Vehicle Description
Carryover of the Evaporative Emission Data generated for the 1998 MY, Engine Family WBMXV02.8M52 Model 528i
Evaporative Family YBMXR0160E39
Vehicle Identification Number B W50 317
Emission Control System 2TWC, 2HO2S(2), SFI
Engine Code 4.4/5 A5
Evaporative Code 39 - 2.8
Catalyst Code Engelhard
Equivalent Test Weight 4 000 lb.
Actual Vehicle Weight
Curb Weight 3 803 lb.
Drive Axle Weight 1 808 lb.
Test Horsepower 7.6 hp
Transmission Type automatic five speed
Axle Ratio 2.81
Tire Manufacturer Michelin
Tire Size 225/60 R 15
Application for Certification
Common Section for Model Year 2005
Enclosure 1to Section 17Page 4 of 6
CS Part 1 Issued: 04/24/04 5. Bench Test Procedure 5.1. Description of Bench Test Procedure Confidential Information,
Refer to Common Section, Section 16, Item 16.4.1.2 5.2. Fuel Tank Temperature and Pressure Profile 5.2.1. Test Vehicle Description
Vehicle Identification Number B V93 150
Model M5
Emission Control System 2TWC,2HO2S(2), AIR, SFI
Displacement 4 941 cm. cu.
Engine Code 4.9-S
Evaporative Family YBMX0160E39
Transmission Type manual six-speed
Transmission Code S6S42
Axle Ratio 3.15
N/V Ratio 35.2
Tire Manufacturer Michelin
Tire Size 275/35 R 18 5.2.2. EPA Profile and Ambient Conditions
The temperature correction was conducted in accordance with the Federal Evaporative Emission Standards and Test Procedures after the following equation:
Ti ,profile = Ti - To Ti is the series of observed liquid fuel temperature during the drive (°F) where i is the incremental measurement in time To is the liquid fuel temperature observed at the start of the specified driving schedule (°F). Ti ,profile is the series of temperatures that comprise the relative temperature profile For table of Ti refer to Enclosure 1 of Common Section, Section 12.
Application for Certification
Common Section for Model Year 2005
Enclosure 1to Section 17Page 5 of 6
CS Part 1 Issued: 04/24/04 6. Test Results for Evaporative Emissions and for Refueling Emissions 6.1. Test Results of Durability Data Vehicle, Calculation of Evaporative Emission, Running Losses
and Refueling Deterioration Factor
Miles
Enhanced Evap. (g/test)
Supplemental Evap. (g/test)
Running Losses (g/mi)
Refueling
(g/gal)
0 (1. Set) 0.489 0.721 0.038 0.039 0 (2. Set) 0.673 0.693 0.040 0.037 0 (3. Set) 1.222 1.060 0.027 0.040
100 000 (1. Set) 1.366 1.330 0.036 0.094 100 000 (2. Set) 1.364 1.242 0.034 0.052 100 000 (3. Set) 1.362 1.740 0.043 0.061 120 000 (1. Set) 1.262 1.5230 0.0314 0.0750 120 000 (2. Set) 1.246 1.5554 0.0320 0.0650 120 000 (3. Set) 1.307 1.5900 0.0321 0.0770
Average Values
4 000 0.795 0.825 0.0350 0.038 100 000 1.364 1.437 0.0377 0.069 120 000 1.271 1.556 0.0318 0.072
Deterior. Factors 100K 0.569 0.612 0.0027 0.031 120K 0.474 0.733 0.0000 0.034
6.2. Test Results of Emission Data Vehicle
4K Evaporative Emission Test Data Deter. Factors
100K/120K
Compliance with Std.
Standard Unit
Test Vehicle Model VIN
M5 G J15 016
528i B W00 013
540i, B W50317
Test Data + DF 100K/120K
Enhanced Evaporative Test 1.086 ----- 0.569/0.474 1.655/1.560 2.0 g
Supplemental Test 1.203 ----- 0.612/0.733 1.815/1.936 2.5 g
Running Loss Test 0.024 ----- 0.0027/0.0000
0.0267/0.0242 0.05 g/mi
Refueling Test ----- 0.008 0.031/0.034 0.039/0.042 0.2 g/gal
Individual 24-hour test values 3-day Sequence [ g ]
2-day Sequence [ g ]
Diurnal 1st day: 2nd day: 3rd day:
1.015 0.864 0.724
0.960 1.018
----
Hot soak 0.071 0.185
Application for Certification
Common Section for Model Year 2005
Enclosure 1to Section 17Page 6 of 6
CS Part 1 Issued: 04/24/04 7. Compliance with the Evaporative Standards at the End of Useful Life
The compliance with the evaporative standards at the end of useful life is demonstrated by evaporative tests with the durability data vehicle selected for every durability group according to § 40 CFR 86.1820-01 and § 40 CFR 86.1822-01. The evaporative tests are carried out at the end of the durability run according to Common Section, item 16.4.
Application for Certification
Common Section for Model Year 2005
Enclosure 2to Section 17Page 1 of 6
CS Part 1 Issued: 04/24/04 Evaporative Emission Family 5BMXR0136E46 1. Evaporative Family Identification
5BMXR0136E46
Evap Code 46 – 2.8
46-M3
Models 320i, 325i, 325Ci, 325i sport wagon, 325Ci convertible 325xi, 325xi sport wagon, 330i, 330Ci, 330Ci converible
330xi
M3 M3 convertible
2. Parameters of Evaporative Family Refer to Common Section, Section 3.2 3. Selection of Emission Data Vehicle for Evaporative Emission 3.1. Worst Case Selection
The Worst Case selection is carried out according to the provisions in 40 CFR § 86.1828-01 (b)(3)
Evaporative / refueling control system
Evap. Code Model Canister absorptive material
Purge system configuration
Purge strategy
Worst Case
1. 46- 2.8
320i 325i
325Ci 325i sport wagon 325i convertible
325xi 325xi sport wagon
330i 330Ci
330 convertible
2. 46- 525iT 525i sport wagon
3. 46-M3 M3 M3 convertible
granulated charcoal
tank - evaporative canister and evaporative canister - engine are connected alternatively by means of the Fuel Tank Purge Valve
Computer controlled by ECM
X
Application for Certification
Common Section for Model Year 2005
Enclosure 2to Section 17Page 2 of 6
CS Part 1 Issued: 04/24/04 3.2. Test Vehicle Description
all other models included in 5BMXR0136 E46:
Carryover of the Evaporative Emission Data generated for the 1999 MY, Engine Family XBMXV02.8M52
M3, M3 convertible:
Carryover of the Evaporative Emission Data generated for the 2001 MY, Engine Family 1BMXV03.2E46
Engine Family XBMXV02.8M52 1BMXV03.2S54
Vehicle Identification Number H 000 618 J R10 001
Evaporative Emission Code 2.8-A-LEV 46-M3
Model 328iA M3 convertible
Emission Control System: 2TWC, 2H02S(2), SFI, AIR 2TWC, 2H02S(2), SFI, AIR
Displacement 2 793 cu. cm 3.245 cu. cm
Engine Code 2.8-A-LEV 3.2-M-LEV
Evaporative Family XBMXR0136E46 1BMXR0146E46
Equivalent Test Weight 3 500 lb. 4000 lb.
Actual Vehicle Weight
Curb Weight 3 311 lb. 3794 lb.
Drive Axle Weight 1 609 lb. 1944 lb.
Test Horsepower 6.9 hp ----
Coast-Down Time 16.90 sec ----
Target Coefficients: A: ---- 34
B: ---- 0,382
C: ---- 0,0188
Air Conditioning included included
Transmission Type automatic five-speed Manual transmission, six-speed
Transmission Code A5S39 S6S42
Axle Ratio 3.46 3.64
N/V Ratio 36.55 40.4
Tire Manufacturer Michelin Michelin
Tire Size 205/55 R 16 255/450 R 18
Odometer Calibration
Correction Factor 0.985 0.997
Initial Correction 4370 mi 212 mi
Application for Certification
Common Section for Model Year 2005
Enclosure 2to Section 17Page 3 of 6
CS Part 1 Issued: 04/24/04 4. Selection of Durability Data Vehicle for Evaporative Emissions and for Refueling Emissions 4.1. Worst Case Selection
The Worst Case selection is carried out according to the provisions in 40 CFR § 86.1824-01 (b), 40 CFR § 86.1825-01 (b)
Evaporative / refueling control system
Evap. Code Model Canister absorptive material
Purge system configuration
Purge strategy
Worst Case
1. 46- 2.8
320i 325i
325Ci 325i sport wagon 325i convertible
325xi 325xi sport wagon
330i 330Ci
330 convertible
2. 46-M3 M3 M3 convertible
granulated charcoal
tank - evaporative canister and evaporative canister - engine are connected alternatively by means of the Fuel Tank Purge Valve
Computer controlled by ECM
X
4.2. Test Vehicle Description
Carryover of the Evaporative Emission Data generated for the 1999 MY, Engine Family XBMXV02.8M52 Model 328i
Evaporative Family XBMXR0136E46
Vehicle Identification Number H 000 483
Emission Control System 2TWC, 2HO2S(2), SFI, AIR
Engine Code 2.8-A-LEV
Evaporative Code 46 - 2.8
Equivalent Test Weight 3 500lb.
Actual Vehicle Weight
Curb Weight 3 256 lb.
Drive Axle Weight 1 587 lb.
Test Horsepower 7.3 hp
Transmission Type automatic five speed
Axle Ratio 3.46
Tire Manufacturer Michelin
Tire Size 205/55 R 16
Application for Certification
Common Section for Model Year 2005
Enclosure 2to Section 17Page 4 of 6
CS Part 1 Issued: 04/24/04 5. Bench Test Procedure 5.1. Description of Bench Test Procedure Confidential Information,
Refer to Common Section, Section 16.4.1.2 5.2. Fuel Tank Temperature and Pressure Profile 5.2.1. Test Vehicle Description
all other models included in 5BMXR0136 E46:
Carryover of the Evaporative Emission Data generated for the 1999 MY, Engine Family XBMXV02.8M52
M3, M3 convertible, M coupe, M roadster:
Carryover of the Evaporative Emission Data generated for the 2001 MY, Engine Family 1BMXV03.2E46
Vehicle Identification Number H 062 478 J R09 137
Model 328i M3
Emission Control System 2TWC,2HO2S(2), AIR, SFI 2TWC,2HO2S(2), AIR, SFI
Displacement 2 793 cm. cu. 3.245 cu. cm
Engine Code 2.8-A-LEV 3.2-M-LEV
Evaporative Family YBMXR0136E46 1BMXR0136E46
Transmission Type automatic five-speed Manual transmission, six-speed
Transmission Code A5S39 S6S42
Axle Ratio 3.46 3.64
N/V Ratio 36.5 40.4
Tire Manufacturer Michelin Michelin
Tire Size 205/55 R 15 255/450 R 18 5.2.2. EPA Profile and Ambient Conditions
The temperature correction was conducted in accordance with the Federal Evaporative Emission Standards and Test Procedures after the following equation:
Ti ,profile = Ti - To Ti is the series of observed liquid fuel temperature during the drive (°F) where i is the incremental measurement in time To is the liquid fuel temperature observed at the start of the specified driving schedule (°F). Ti ,profile is the series of temperatures that comprise the relative temperature profile For table of Ti refer to Enclosure 2 and Enclosure 3 of Common Section, Section 12.
Application for Certification
Common Section for Model Year 2005
Enclosure 2to Section 17Page 5 of 6
CS Part 1 Issued: 04/24/04
6. Test Results for Evaporative Emissions and for Refueling Emissions 6.1. Test Results of Durability Data Vehicle, Calculation of Evaporative Emission, Running Losses
and Refueling Deterioration Factor
Miles
Enhanced Evap. (g/test)
Supplemental Evap. (g/test)
Running Losses (g/mi)
Refueling
(g/gal)
0 (1. Set) 1.193 1.294 0.038 0.029 0 (2. Set) 1.484 1.636 0.018 0.039 0 (3. Set) 1.403 1.516 0.020 0.016 100 000 (1. Set) 1.724 2.038 0.032 0.024 100 000 (2. Set) 1.591 2.039 0.022 0.022 100 000 (3. Set) 1.778 1.847 0.029 0.027 Average Values 4 000 1.360 1.482 0.025 0.028 100 000 1.698 1.975 0.028 0.024 Deterioration factors 0.338 0.493 0.003 0.000
(- 0.004) 6.2. Test Results of Emission Data Vehicle
4K Evaporative Emission Test Data Deterioration Factors
Compliance with Std.
Standard Unit
Test Vehicle Model VIN
328i, H 000 483
328i, H 000 483
Test Data + DF
Enhanced Evaporative Test 0.772 0.338 1.110 2.0 g
Supplemental Test 1.386 0.493 1.879 2.5 g
Running Loss Test 0.023 0.003 0.026 0.05 g/mi
Refueling Test 0.072 0.000 0.072 0.2 g/gal
Individual 24-hour test values 3-day Sequence [ g ]
2-day Sequence [ g ]
Diurnal 1st day: 2nd day: 3rd day:
0.641 0.580 0.571
1.180 1.140
----
Hot soak 0.131 0.210
Application for Certification
Common Section for Model Year 2005
Enclosure 2to Section 17Page 6 of 6
CS Part 1 Issued: 04/24/04
4K Evaporative Emission Test Data Deterioration Factors
Compliance with Std.
Standard Unit
Test Vehicle Model VIN
M3, J R01 001
328i, H 000 483
Test Data + DF
Enhanced Evaporative Test 0.71 0.338 1.048 2.0 g
Supplemental Test 1.42 0.493 1.913 2.5 g
Running Loss Test 0.015 0.003 0.018 0.05 g/mi
Refueling Test 0.072 0.000 0.072 0.2 g/gal
Individual 24-hour test values 3-day Sequence [ g ]
2-day Sequence [ g ]
Diurnal 1st day: 2nd day: 3rd day:
0.687 0.590 0.582
0.747 1.335
----
Hot soak 0.027 0.080 7. Compliance with the Evaporative Standards at the End of Useful Life
The compliance with the evaporative standards at the end of useful life is demonstrated by evaporative tests with the durability data vehicle selected for every durability group according to § 40 CFR 86.1820-01 and § 40 CFR 86.1822-01. The evaporative tests are carried out at the end of the durability run according to Common Section, item 16.4.
Application for Certification
Common Section for Model Year 2005
Enclosure 3to Section 17Page 1 of 7
CS Part 1 Issued: 04/24/04 Evaporative Emission Family 5BMXR0158E65 1. Evaporative Family Identification
5BMXR0158E65
Evap Code 65 – 4.4
Models 745i 745Li
2. Parameters of Evaporative Family Refer to Common Section, Section 3.3 3. Selection of Emission Data Vehicle for Evaporative Emission 3.1. Worst Case Selection
The Worst Case selection is carried out according to the provisions in 40 CFR § 86.1828-01 (b)(3)
Evaporative / refueling control system
Evap. Code Model Canister absorptive material
Purge system configuration
Purge strategy
Worst Case
1. 65 – 4.4 745i 745Li granulated charcoal
tank - evaporative canister and evaporative canister - engine are connected alternatively by means of the Fuel Tank Purge Valve
Computer controlled by ECM X
Application for Certification
Common Section for Model Year 2005
Enclosure 3to Section 17Page 2 of 7
CS Part 1 Issued: 04/24/04 3.2. Test Vehicle Description
Engine Family 2BMXV04.4LEV
Vehicle Identification Number D P50 026
Evaporative Emission Code 65-4.4
Model 745i
Emission Control System: 2TWC, 2 A/F Sensor, 2H02S, SFI, AIR
Displacement 4398 cu. cm
Engine Code 4.4-A-E65
Evaporative Family 2BMXR0158E65
Equivalent Test Weight 4750
Actual Vehicle Weight
Curb Weight 4464 lb.
Drive Axle Weight 2205 lb.
Target Coefficients: A: 51.5
B: 0.169
C: 0.0166
Air Conditioning included
Transmission Type automatic six-speed
Transmission Code GA6HP26Z
Axle Ratio 3.38
N/V Ratio 29.2
Tire Manufacturer Pirelli
Tire Size 245/50 R 18
Odometer Calibration
Correction Factor 1,0
Initial Correction 0 mi
Application for Certification
Common Section for Model Year 2005
Enclosure 3to Section 17Page 3 of 7
CS Part 1 Issued: 04/24/04
4. Selection of Durability Data Vehicle for Evaporative Emissions and for Refueling Emissions 4.1. Worst Case Selection
The Worst Case selection is carried out according to the provisions in 40 CFR § 86.1824-01 (b), 40 CFR § 86.1825-01 (b)
Evaporative / refueling control system
Evap. Code Model Canister absorptive material
Purge system configuration
Purge strategy
Worst Case
1. 65 – 4.4 745i 745Li granulated charcoal
tank - evaporative canister and evaporative canister - engine are connected alternatively by means of the Fuel Tank Purge Valve
Computer controlled by ECM X
4.2. Test Vehicle Description
Engine Family 2BMXV04.4LEV
Vehicle Identification Number D P50 025
Evaporative Emission Code 65-4.4
Model 745i
Emission Control System: 2TWC, 2 A/F Sensor, 2H02S, SFI, AIR
Displacement 4398 cu. cm
Engine Code 4.4-A-E65
Evaporative Family 2BMXR0158E65
Equivalent Test Weight 4750
Actual Vehicle Weight
Curb Weight 4464 lb.
Drive Axle Weight 2205 lb.
Target Coefficients: A: 51.5
B: 0.169
C: 0.0166
Air Conditioning included
Transmission Type automatic six-speed
Transmission Code GA6HP26Z
Axle Ratio 3.38
N/V Ratio 29.2
Tire Manufacturer Pirelli
Tire Size 245/50 R 18
Application for Certification
Common Section for Model Year 2005
Enclosure 3to Section 17Page 4 of 7
CS Part 1 Issued: 04/24/04 5. Bench Test Procedure 5.1. Description of Bench Test Procedure Confidential Information,
Refer to Common Section, Section 16.4.1.2 5.2. Fuel Tank Temperature and Pressure Profile 5.2.1. Test Vehicle Description
Engine Family 2BMXV04.4LEV
Vehicle Identification Number D P50 025
Evaporative Emission Code 65-4.4
Model 745i
Emission Control System: 2TWC, 2 A/F Sensor, 2H02S, SFI, AIR
Displacement 4398 cu. cm
Engine Code 4.4-A-E65
Evaporative Family 2BMXR0158E65
Equivalent Test Weight 4750
Actual Vehicle Weight
Curb Weight 4464 lb.
Drive Axle Weight 2205 lb.
Target Coefficients: A: 51.5
B: 0.169
C: 0.0166
Air Conditioning included
Transmission Type automatic six-speed
Transmission Code GA6HP26Z
Axle Ratio 3.38
N/V Ratio 29.2
Tire Manufacturer Pirelli
Tire Size 245/50 R 18
Application for Certification
Common Section for Model Year 2005
Enclosure 3to Section 17Page 5 of 7
CS Part 1 Issued: 04/24/04 5.2.2. EPA Profile and Ambient Conditions
The temperature correction was conducted in accordance with the Federal Evaporative Emission Standards and Test Procedures after the following equation:
Ti ,profile = Ti - To Ti is the series of observed liquid fuel temperature during the drive (°F) where i is the incremental measurement in time To is the liquid fuel temperature observed at the start of the specified driving schedule (°F). Ti ,profile is the series of temperatures that comprise the relative temperature profile For table of Ti refer to Enclosure 4 of Common Section, Section 12.
6. Test Results for Evaporative Emissions and for Refueling Emissions 6.1. Test Results of Durability Data Vehicle, Calculation of Evaporative Emission, Running Losses
and Refueling Deterioration Factor
Stick Car
Mileage Enhanced
Evap. [ g/test ]
Supplemental Evap.
[ g/test ]
Running Losses [ g/mi ]
Refueling
[ g/gal ]
4000 (1. Set) 0.2482 0.3420 0.0126 0,0130
4000 (2. Set) 0.2490 0.5781 0,0097 0,0110
4000 (3. Set) 0.3087 0.2448 0,0070 0,0110
100 000 (1. Set) 0.2564 0.2463 0,0072 0,0600
100 000 (2. Set) 0.3206 0.2820 0,0073 0,0590
100 000 (3. Set) 0.3688 0.2980 0,0075 0,1840
Average Values
4 000 0.2686 0.3883 0.0098 0.0117
100 000 0.3153 0.2754 0.0073 0.1010
deterioration factor 0.0466 -0.1129 -0.0025 0.0893
Application for Certification
Common Section for Model Year 2005
Enclosure 3to Section 17Page 6 of 7
CS Part 1 Issued: 04/24/04
Whole vehicle ( D P50 025 )
mileage Enhanced
Evap. [ g/test ]
Supplemental Evap.
[ g/test ]
Running Losses [ g/mi ]
Refueling
[ g/gal ]
4 000 0.4886 0.7640 0.0165 0.0510
100 000 0.7019 0.6480 0.0180 0.0070
deterioration factor 0.2133 - 0.1160 0,0015 - 0.0440
calculated deterioration factors
mileage Enhanced
Evap. [ g/test ]
Supplemental Evap.
[ g/test ]
Running Losses [ g/mi ]
Refueling
[ g/gal ]
calculated deterioration factors 1) 0,130 - 0.1144 -0.0005 0,0227
deterioration factors used for durability demonstration 2)
0,13 0.00 0.00 0.02
1) according to BMW Evaporative Bench Test Procedure issued 08/08/01 2) according to 40CFR §86.1824-01(c)
6.2. Test Results of Emission Data Vehicle
4K Evaporative Emission Test Data Deterioration Factors
Compliance with Std.
Standard Unit
Test Vehicle Model VIN
745i, D P50 026
745i, D P50 025
Test Data + DF
Enhanced Evaporative Test 0.48 0.13 0.61 2.0 g
Supplemental Test 0.46 0.00 0.46 2.5 g
Running Loss Test 0.027 0.00 0.027 0.05 g/mi
Refueling Test 0.01 0.02 0.03 0.2 g/gal
Individual 24-hour test values 3-day Sequence [ g ]
2-day Sequence [ g ]
Diurnal 1st day: 2nd day: 3rd day:
0.393 0.296 0.281
0.325 0.323
----
Hot soak 0.089 0.130
Application for Certification
Common Section for Model Year 2005
Enclosure 3to Section 17Page 7 of 7
CS Part 1 Issued: 04/24/04 7. Compliance with the Evaporative Standards at the End of Useful Life
The compliance with the evaporative standards at the end of useful life is demonstrated by evaporative tests with the durability data vehicle selected for every durability group according to § 40 CFR 86.1820-01 and § 40 CFR 86.1822-01. The evaporative tests are carried out at the end of the durability run according to Common Section, item 16.4.
Application for Certification
Common Section for Model Year 2005
Enclosure 4to Section 17Page 1 of 7
CS Part 1 Issued: 04/24/04 Evaporative Emission Family 5BMXR0093R50 1. Evaporative Family Identification
5BMXR0093R50
Evap Code 50 – 1.6
Models Mini Cooper Mini Cooper conv.
Mini Cooper S Mini Cooper S conv.
2. Parameters of Evaporative Family Refer to Common Section, Section 3.4 3. Selection of Emission Data Vehicle for Evaporative Emission 3.1. Worst Case Selection
The Worst Case selection is carried out according to the provisions in 40 CFR § 86.1828-01 (b)(3)
Evaporative / refueling control system
Evap. Code Model Canister
absorptive material
Purge system configuration
Purge strategy
Worst Case
1. 50 – 1.6
Mini Cooper Mini Cooper S
Mini Cooper convCooper S conv
granulated charcoal
tank - evaporative canister and evaporative canister - engine are connected alternatively by means of the Fuel Tank Purge Valve
Computer controlled by ECM
X
Application for Certification
Common Section for Model Year 2005
Enclosure 4to Section 17Page 2 of 7
CS Part 1 Issued: 04/24/04 3.2. Test Vehicle Description
Engine Family 2BMXV01.6R50
Vehicle Identification Number T D50 012
Evaporative Emission Code 50-1.6
Model Mini Cooper S
Emission Control System: WU-TWC, TWC HO2S(2), SFI, SC
Displacement 1598 cu. cm
Engine Code 1.6S-M-LEV
Evaporative Family 2BMXR0093R50
Equivalent Test Weight 3000
Actual Vehicle Weight
Curb Weight 2646 lb.
Drive Axle Weight 1620 lb.
Target Coefficients: A: 33
B: 0.114
C: 0.0179
Air Conditioning included
Transmission Type manual six-speed
Transmission Code Getrag 285
Axle Ratio 2.99
N/V Ratio 42.3
Tire Manufacturer Good Year
Tire Size 195/55 R 16
Application for Certification
Common Section for Model Year 2005
Enclosure 4to Section 17Page 3 of 7
CS Part 1 Issued: 04/24/04 4. Selection of Durability Data Vehicle for Evaporative Emissions and for Refueling Emissions 4.1. Worst Case Selection
The Worst Case selection is carried out according to the provisions in 40 CFR § 86.1824-01 (b), 40 CFR § 86.1825-01 (b)
Evaporative / refueling control system
Evap. Code Model Canister
absorptive material
Purge system configuration
Purge strategy
Worst Case
1. 50 – 1.6
Mini Cooper, Mini Cooper conv.
Mini Cooper S Mini Cooper S conv.
granulated charcoal
tank - evaporative canister and evaporative canister - engine are connected alternatively by means of the Fuel Tank Purge Valve
Computer controlled by ECM
X
4.2. Test Vehicle Description
Engine Family 2BMXV01.6R50
Vehicle Identification Number T D50 018
Evaporative Emission Code 50-1.6
Model Mini Cooper S
Emission Control System: WU-TWC, TWC HO2S(2), SFI, SC
Displacement 1598 cu. cm
Engine Code 1.6S-M-LEV
Evaporative Family 2BMXR0093R50
Equivalent Test Weight 3000
Actual Vehicle Weight
Curb Weight 2646 lb.
Drive Axle Weight 1620 lb.
Target Coefficients: A: 33
B: 0.114
C: 0.0179
Air Conditioning included
Transmission Type manual six-speed
Transmission Code Getrag 285
Axle Ratio 2.99
N/V Ratio 42.3
Tire Manufacturer Good Year
Tire Size 195/55 R 16
5. Bench Test Procedure
Application for Certification
Common Section for Model Year 2005
Enclosure 4to Section 17Page 4 of 7
CS Part 1 Issued: 04/24/04 5.1. Description of Bench Test Procedure Confidential Information,
Refer to Common Section, Section 16.4.1.2 5.2. Fuel Tank Temperature and Pressure Profile 5.2.1. Test Vehicle Description
Engine Family 2BMXV01.6R50
Vehicle Identification Number SPL2489AR53D02414
Evaporative Emission Code 50-1.6
Model Mini Cooper S
Emission Control System: WU-TWC, TWC HO2S(2), SFI, SC
Displacement 1598 cu. cm
Engine Code 1.6S-M-LEV
Evaporative Family 2BMXR0093R50
Equivalent Test Weight 3000
Actual Vehicle Weight
Curb Weight 2646 lb.
Drive Axle Weight 1620 lb.
Target Coefficients: A: 33
B: 0.114
C: 0.0179
Air Conditioning included
Transmission Type manual six-speed
Transmission Code Getrag 285
Axle Ratio 2.99
N/V Ratio 42.3
Tire Manufacturer Good Year
Tire Size 195/55 R 16
Application for Certification
Common Section for Model Year 2005
Enclosure 4to Section 17Page 5 of 7
CS Part 1 Issued: 04/24/04 5.2.2. EPA Profile and Ambient Conditions
The temperature correction was conducted in accordance with the Federal Evaporative Emission Standards and Test Procedures after the following equation:
Ti ,profile = Ti - To Ti is the series of observed liquid fuel temperature during the drive (°F) where i is the incremental measurement in time To is the liquid fuel temperature observed at the start of the specified driving schedule (°F). Ti ,profile is the series of temperatures that comprise the relative temperature profile For table of Ti refer to Enclosure 5 of Common Section, Section 12.
6. Test Results for Evaporative Emissions and for Refueling Emissions 6.1. Test Results of Durability Data Vehicle, Calculation of Evaporative Emission, Running Losses
and Refueling Deterioration Factor
Stick Car
Mileage Enhanced
Evap. [ g/test ]
SupplementalEvap.
[ g/test ]
Running Losses [ g/mi ]
Refueling
[ g/gal ]
4000 (1. Set) 0.1309 0.0637 0.0026 0.0340
4000 (2. Set) 0.1474 0.1814 0.0011 0.0310
4000 (3. Set) 0.1803 0.2391 0.0031 0.0310
100 000 (1. Set) 0.2126 0.1549 0.0051 0.0380
100 000 (2. Set) 0.1624 0.1198 0.0020 0.0300
100 000 (3. Set) 0.1549 0.1219 0.0015 0.0260
Average Values
4 000 0.1529 0.1614 0.0023 0.0320
100 000 0.1766 0.1322 0.0029 0.0313
deterioration factor 0.0237 -0.0292 0.0006 -0.0007
Application for Certification
Common Section for Model Year 2005
Enclosure 4to Section 17Page 6 of 7
CS Part 1 Issued: 04/24/04
Whole vehicle ( T D50 018 )
mileage Enhanced
Evap. [ g/test ]
SupplementalEvap.
[ g/test ]
Running Losses [ g/mi ]
Refueling
[ g/gal ]
4 000 0.9832 0.5280 0.0027 0.0200
100 000 0.3820 0.9440 0.0105 0.0310
deterioration factor -0.6012 0.4160 -0.0165 0.0110
calculated deterioration factors
mileage Enhanced
Evap. [ g/test ]
SupplementalEvap.
[ g/test ]
Running Losses [ g/mi ]
Refueling
[ g/gal ]
calculated deterioration factors 1) -0.2888 0.1934 -0.0080 0.0052
deterioration factors used for durability demonstration 2)
0.00 0.19 0.000 0.0052
1) according to BMW Evaporative Bench Test Procedure issued 08/08/01 2) according to 40 CFR §86.1824-01(c)
6.2. Test Results of Emission Data Vehicle
4K Evaporative Emission Test Data Deterioration Factors
Compliance with Std.
Standard Unit
Test Vehicle Model VIN
Mini Cooper S,T D50 012
Mini Cooper S,T D50 018
Test Data + DF
Enhanced Evaporative Test 1.6855 0.000 1.6855 2.0 g
Supplemental Test 0.79 0.19 0.8090 2.5 g
Running Loss Test 0.0145 0.000 0.0145 0.05 g/mi
Refueling Test 0.128 0.0052 0.1332 0.2 g/gal
Individual 24-hour test values 3-day Sequence [ g ]
2-day Sequence [ g ]
Diurnal 1st day: 2nd day: 3rd day:
0.444 0.558 1.671
---- 0.608 0.742
Hot soak 0.0145 0.048
Application for Certification
Common Section for Model Year 2005
Enclosure 4to Section 17Page 7 of 7
CS Part 1 Issued: 04/24/04 7. Compliance with the Evaporative Standards at the End of Useful Life
The compliance with the evaporative standards at the end of useful life is demonstrated by evaporative tests with the durability data vehicle selected for every durability group according to § 40 CFR 86.1820-01 and § 40 CFR 86.1822-01. The evaporative tests are carried out at the end of the durability run according to Common Section, item 16.4.
Application for Certification
Common Section for Model Year 2005
Enclosure 5to Section 17Page 1 of 7
CS Part 1 Issued: 04/24/04 Evaporative Emission Family 5BMXR0128E85 1. Evaporative Family Identification
5BMXR0128E85
Evap Code 85 - 2.5 85 - 2.5 83 - 2.5 83 – 3.0
Models Z4 2.5i Z4 3.0i X3 2.5i X3 3.0i 2. Parameters of Evaporative Family Refer to Common Section, Section 3.5 3. Selection of Emission Data Vehicle for Evaporative Emission 3.1. Worst Case Selection
The Worst Case selection is carried out according to the provisions in 40 CFR § 86.1828-01 (b)(3)
Evaporative / refueling control system
Evap. Code Model Canister
absorptive material
Purge system configuration
Purge strategy
Worst Case
1. 85 - 2.5 Z4 2.5i X
2. 85 - 3.0 Z4 3.0i
3. 83 – 2.5 X3 2.5i
4. 83 – 3.0 X3 3.0i
granulated charcoal
tank - evaporative canister and evaporative canister - engine are connected alternatively by means of the Fuel Tank Purge Valve
Computer controlled by ECM
Application for Certification
Common Section for Model Year 2005
Enclosure 5to Section 17Page 2 of 7
CS Part 1 Issued: 04/24/04 3.2. Test Vehicle Description
Engine Family 3BMXV03.0LER
Vehicle Identification Number H001472
Evaporative Emission Code 85 - 2.5
Model Z4 2.5i
Emission Control System: 2TWC, 2HO2S(2), SFI, AIR
Displacement 2494 cu. cm
Engine Code 2.5-A-E85-R
Evaporative Family 3BMXR0128E85
Equivalent Test Weight 3250
Actual Vehicle Weight
Curb Weight 2998 lb.
Drive Axle Weight 1486 lb.
Target Coefficients: A: 38.2
B: 0.263
C: 0.01642
Air Conditioning included
Transmission Type automatic five-speed
Transmission Code A5S325Z
Axle Ratio 3.64
N/V Ratio 37.43
Tire Manufacturer Good Year
Tire Size 225/50R16
Application for Certification
Common Section for Model Year 2005
Enclosure 5to Section 17Page 3 of 7
CS Part 1 Issued: 04/24/04 4. Selection of Durability Data Vehicle for Evaporative Emissions and for Refueling Emissions 4.1. Worst Case Selection
The Worst Case selection is carried out according to the provisions in 40 CFR § 86.1824-01 (b), 40 CFR § 86.1825-01 (b)
Evaporative / refueling control system
Evap. Code Model Canister
absorptive material
Purge system configuration
Purge strategy
Worst Case
1. 85 - 2.5 Z4 2.5i X
2. 85 - 3.0 Z4 3.0i
3. 83 – 2.5 X3 2.5i
4. 83 – 3.0 X3 3.0i
granulated charcoal
tank - evaporative canister and evaporative canister - engine are connected alternatively by means of the Fuel Tank Purge Valve
Computer controlled by ECM
4.2. Test Vehicle Description
Engine Family 3BMXV03.0LER Vehicle Identification Number H001468 Evaporative Emission Code 85 - 2.5 Model Z4 2.5i Emission Control System: 2TWC, 2HO2S(2), SFI, AIR Displacement 2494 cu. cm Engine Code 2.5-A-E85-R Evaporative Family 3BMXR0128E85 Equivalent Test Weight 3250 Actual Vehicle Weight Curb Weight 2998 lb. Drive Axle Weight 1484 lb. Target Coefficients: A: 38.2 B: 0.263 C: 0.01642 Air Conditioning included Transmission Type automatic five-speed Transmission Code A5S325Z Axle Ratio 3,64 N/V Ratio 37,43 Tire Manufacturer Good Year Tire Size 225/50R16
Application for Certification
Common Section for Model Year 2005
Enclosure 5to Section 17Page 4 of 7
CS Part 1 Issued: 04/24/04 5. Bench Test Procedure 5.1. Description of Bench Test Procedure Confidential Information,
Refer to Common Section, Section 16.4.1.2 5.2. Fuel Tank Temperature and Pressure Profile 5.2.1. Test Vehicle Description
Engine Family 3BMXV03.0LER
Vehicle Identification Number WBABT5300H0014444
Evaporative Emission Code 85 - 3.0
Model Z4 3.0i
Emission Control System: 2TWC, 2HO2S(2), SFI, AIR
Displacement 2979 cu. cm
Engine Code 3.0-A-E85-R
Evaporative Family 3BMXR0128E85
Equivalent Test Weight 3375
Actual Vehicle Weight
Curb Weight 3042 lb.
Drive Axle Weight 1499 lb.
Target Coefficients: A: 39.3
B: 0.263
C: 0.01561
Air Conditioning included
Transmission Type automatic five-speed
Transmission Code A5S325Z
Axle Ratio 3.46
N/V Ratio 35.58
Tire Manufacturer Bridgestone
Tire Size 225/45R17
Application for Certification
Common Section for Model Year 2005
Enclosure 5to Section 17Page 5 of 7
CS Part 1 Issued: 04/24/04 5.2.2. EPA Profile and Ambient Conditions
The temperature correction was conducted in accordance with the Federal Evaporative Emission Standards and Test Procedures after the following equation:
Ti ,profile = Ti - To Ti is the series of observed liquid fuel temperature during the drive (°F) where i is the incremental measurement in time To is the liquid fuel temperature observed at the start of the specified driving schedule (°F). Ti ,profile is the series of temperatures that comprise the relative temperature profile For table of Ti refer to Enclosure 6 of Common Section, Section 12.
6. Test Results for Evaporative Emissions and for Refueling Emissions 6.1. Test Results of Durability Data Vehicle, Calculation of Evaporative Emission, Running Losses
and Refueling Deterioration Factor
Stick Car
Mileage Enhanced
Evap. [ g/test ]
SupplementalEvap.
[ g/test ]
Running Losses [ g/mi ]
Refueling
[ g/gal ]
4000 (1. Set) 0.1193 0.0793 0.0048 0.0370
4000 (2. Set) 0.0961 0.0589 0.0019 0.0120
4000 (3. Set) 0.1018 0.1926 0.0037 0.0950
150 000 (1. Set) 0.1355 0.0833 0.0034 0.1130
150 000 (2. Set) 0.0509 0.1322 0.0020 0.0130
150 000 (3. Set) 0.1262 0.0652 0.0026 0.0660
Average Values
4 000 0.1057 0.1103 0.0035 0.0480
150 000 0.1042 0.0936 0.0027 0.0640
deterioration factor -0.0015 -0.0167 -0.0008 0.0160
Application for Certification
Common Section for Model Year 2005
Enclosure 5to Section 17Page 6 of 7
CS Part 1 Issued: 04/24/04
Whole vehicle ( H001468 )
mileage Enhanced
Evap. [ g/test ]
SupplementalEvap.
[ g/test ]
Running Losses [ g/mi ]
Refueling
[ g/gal ]
4 000 0,2708 0,3380 0,0060 0,0310
150 000 0,2380 0,3100 0,0070 0,0640
deterioration factor -0,0328 -0,0280 0,0010 0,0330
calculated deterioration factors
mileage Enhanced
Evap. [ g/test ]
SupplementalEvap.
[ g/test ]
Running Losses [ g/mi ]
Refueling
[ g/gal ]
calculated deterioration factors 1) -0,0172 -0,0224 0,0001 0,0245
deterioration factors used for durability demonstration 2)
0,00 0,000 0,000 0,02
1) according to BMW Evaporative Bench Test Procedure issued 08/08/01 2) according to 40 CFR §86.1824-01(c)
6.2. Test Results of Emission Data Vehicle
4K Evaporative Emission Test Data Deterioration Factors
Compliance with Std.
Standard Unit
Test Vehicle Model VIN
Z4, H001472
Z4, H001468
Test Data + DF
Enhanced Evaporative Test 0.447 0.00 0.447 0.50 g
Supplemental Test 0.267 0.000 0.2670 0.650 g
Running Loss Test 0.013 0.000 0.013 0.005 g/mi
Refueling Test 0.044 0.02 0.064 0.20 g/gal
Individual 24-hour test values 3-day Sequence [ g ]
2-day Sequence [ g ]
Diurnal 1st day: 2nd day: 3rd day:
0.416 0.384 0.383
0.203 0.170
----
Hot soak 0.031 0.064
Application for Certification
Common Section for Model Year 2005
Enclosure 5to Section 17Page 7 of 7
CS Part 1 Issued: 04/24/04 7. Compliance with the Evaporative Standards at the End of Useful Life
The compliance with the evaporative standards at the end of useful life is demonstrated by evaporative tests with the durability data vehicle selected for every durability group according to § 40 CFR 86.1820-01 and § 40 CFR 86.1822-01. The evaporative tests are carried out at the end of the durability run according to Common Section, item 16.4.
Application for Certification
Common Section for Model Year 2005
Enclosure 6to Section 17Page 1 of 8
CS Part 1 Issued: 04/24/04 Evaporative Emission Family 5BMXR0134M56 1. Evaporative Family Identification
5BMXR0134M56
Evap Code 46 - SLV
Models 325i 325Ci
325i sport wagon 2. Parameters of Evaporative Family Refer to Common Section, Section 3.5 3. Selection of Emission Data Vehicle for Evaporative Emission 3.1. Worst Case Selection
The Worst Case selection is carried out according to the provisions in 40 CFR § 86.1828-01 (b)(3)
Evaporative / refueling control system
Evap. Code Model Canister
absorptive material
Purge system configuration
Purge strategy
Worst Case
1. 46 - SLV 325i
2. 46 - SLV 325Ci
3. 46 - SLV 325i sport wagon
granulated charcoal
tank - evaporative canister and evaporative canister - engine are connected alternatively by means of the Fuel Tank Purge Valve
Computer controlled by ECM
X
Application for Certification
Common Section for Model Year 2005
Enclosure 6to Section 17Page 2 of 8
CS Part 1 Issued: 04/24/04 3.2. Test Vehicle Description
Engine Family 3BMXV02.5M56
Vehicle Identification Number PH30007
Evaporative Emission Code 46 - SLV
Model 325i sport wagon
Emission Control System: 2 WU-TWC, 2 TWC, 2 A/F-Sensor, 2HO2S, SFI, AIR, DOR-System
Displacement 2494 cu. cm
Engine Code 2.5-A-E46/3SLV
Evaporative Family 3BMXR0134M56
Equivalent Test Weight 3750
Actual Vehicle Weight
Curb Weight 3494 lb.
Drive Axle Weight 1812 lb.
Target Coefficients: A: 37.8
B: 0.218
C: 0.01788
Air Conditioning included
Transmission Type automatic five-speed
Transmission Code A5S325Z
Axle Ratio 3.46
N/V Ratio 35.58
Tire Manufacturer Good Year
Tire Size 205/55 R16
Application for Certification
Common Section for Model Year 2005
Enclosure 6to Section 17Page 3 of 8
CS Part 1 Issued: 04/24/04 4. Selection of Durability Data Vehicle for Evaporative Emissions and for Refueling Emissions 4.1. Worst Case Selection
The Worst Case selection is carried out according to the provisions in 40 CFR § 86.1824-01 (b), 40 CFR § 86.1825-01 (b)
Evaporative / refueling control system
Evap. Code Model Canister
absorptive material
Purge system configuration
Purge strategy
Worst Case
1. 46 - SLV 325i
2. 46 - SLV 325Ci
3. 46 - SLV 325i sport wagon
granulated charcoal
tank - evaporative canister and evaporative canister - engine are connected alternatively by means of the Fuel Tank Purge Valve
Computer controlled by ECM
X
4.2. Test Vehicle Description
Engine Family 3BMXV02.5M56
Vehicle Identification Number EE79359
Evaporative Emission Code 46 - SLV
Model 325i
Emission Control System: 2 WU-TWC, 2 TWC, 2 A/F-Sensor, 2HO2S, SFI, AIR, DOR-System
Displacement 2494 cu. cm
Engine Code 2.5-A-E46/3SLV
Evaporative Family 3BMXR0134M56
Equivalent Test Weight 3750
Actual Vehicle Weight
Curb Weight 3494 lb.
Drive Axle Weight 1812 lb.
Target Coefficients: A: 37.8
B: 0.218
C: 0.01788
Air Conditioning included
Transmission Type automatic five-speed
Transmission Code A5S325Z
Axle Ratio 3.46
Application for Certification
Common Section for Model Year 2005
Enclosure 6to Section 17Page 4 of 8
CS Part 1 Issued: 04/24/04
N/V Ratio 35.58
Tire Manufacturer Good Year
Tire Size 205/55 R16
5. Bench Test Procedure 5.1. Description of Bench Test Procedure Confidential Information,
Refer to Common Section, Section 16.4.1.2 5.2. Fuel Tank Temperature and Pressure Profile 5.2.1. Test Vehicle Description
Engine Family 3BMXV02.5M56
Vehicle Identification Number WBAAV53491JS94640
Evaporative Emission Code 46 - SLV
Model 325i
Emission Control System: 2 WU-TWC, 2 TWC, 2 A/F-Sensor, 2HO2S, SFI, AIR, DOR-System
Displacement 2494 cu. cm
Engine Code 2.5-A-E46/3SLV
Evaporative Family 3BMXR0134M56
Equivalent Test Weight 3750
Actual Vehicle Weight
Curb Weight 3494 lb.
Drive Axle Weight 1812 lb.
Target Coefficients: A: 37.8
B: 0.218
C: 0.01788
Air Conditioning included
Transmission Type automatic five-speed
Transmission Code A5S325Z
Axle Ratio 2 WU-TWC, 2 TWC, 2 A/F-Sensor, 2HO2S, SFI, AIR, DOR-System
N/V Ratio 2494 cu. cm
Tire Manufacturer 2.5-A-E46/3SLV
Tire Size 3BMXR0134M56
Application for Certification
Common Section for Model Year 2005
Enclosure 6to Section 17Page 5 of 8
CS Part 1 Issued: 04/24/04 5.2.2. EPA Profile and Ambient Conditions
The temperature correction was conducted in accordance with the Federal Evaporative Emission Standards and Test Procedures after the following equation:
Ti ,profile = Ti - To Ti is the series of observed liquid fuel temperature during the drive (°F) where i is the incremental measurement in time To is the liquid fuel temperature observed at the start of the specified driving schedule (°F). Ti ,profile is the series of temperatures that comprise the relative temperature profile For table of Ti refer to Enclosure 6 of Common Section, Section 12.
6. Test Results for Evaporative Emissions and for Refueling Emissions 6.1. Test Results of Durability Data Vehicle, Calculation of Evaporative Emission, Running Losses
and Refueling Deterioration Factor
Stick Car (“fuel only”)
Mileage Enhanced
Evap. [ g/test ]
SupplementalEvap.
[ g/test ]
Running Losses [ g/mi ]
Refueling
[ g/gal ]
4000 (1. Set) 0.0432 0.0495 0.0006 0.0050
4000 (2. Set) 0.0214 0.0143 0.0020 0.0260
4000 (3. Set) 0.0166 0.0441 0.0005 0.0540
150 000 (1. Set) 0.0128 0.0303 0.0004 0.0090
150 000 (2. Set) 0.0121 0.0135 0.0004 0.0070
150 000 (3. Set) 0.0123 0.0138 0.0005 0.0080
Average Values
4 000 0.0271 0.0360 0.0010 0.0283
150 000 0.0124 0.0192 0.0004 0.0080
Application for Certification
Common Section for Model Year 2005
Enclosure 6to Section 17Page 6 of 8
CS Part 1 Issued: 04/24/04
point source test result of intake manifold
Mileage Enhanced
Evap. [ g/test ]
SupplementalEvap.
[ g/test ]
Running Losses [ g/mi ]
Refueling
[ g/gal ]
4 000 0.0008 0.0005 ---- ----
150 000 0.0014 0.0016 ---- ----
“Fuel only” test result
Mileage Enhanced
Evap. [ g/test ]
SupplementalEvap.
[ g/test ]
Running Losses [ g/mi ]
Refueling
[ g/gal ]
4 000 0.0279 0.0365 0.0010 0.0283
150 000 0.0138 0.0208 0.0004 0.0080
“fuel only” deterioration factor 1) -0.0141 -0.0157 -0.0006 -0.0203
“fuel only” deterioration factors used for durability demonstration 2)
0.000 0.000 ---- 2) ---- 2)
1) Enhanced and supplemental evaporative test:
„fuel only“ test result is the sum of the average values of the stick car and the point source test result of intake manifold.
Whole vehicle ( EE79359 )
mileage Enhanced
Evap. [ g/test ]
SupplementalEvap.
[ g/test ]
Running Losses [ g/mi ]
Refueling
[ g/gal ]
4 000 0.1228 0.2160 0.0203 0.0270
150 000 0.0980 0.1350 0.0090 0.0140
“whole vehicle” deterioration factor 3) -0.0248 -0.0810 -0.0113 -0.0130
“whole vehicle” deterioration factors used for durability demonstration 4)
0,000 0,000 ---- 2) ---- 2)
2) is calculated according to BMW Evaporative Bench Test Procedure issued 08/08/01;
refer to whole vehicle 3) according to BMW Evaporative Bench Test Procedure issued 08/08/01
4) according to 40 CFR §86.1824-01(c)
Application for Certification
Common Section for Model Year 2005
Enclosure 6to Section 17Page 7 of 8
CS Part 1 Issued: 04/24/04
Whole vehicle ( EE79359 )
mileage Enhanced
Evap. [ g/test ]
SupplementalEvap.
[ g/test ]
Running Losses [ g/mi ]
Refueling
[ g/gal ]
calculated deterioration factor 5) ---- ---- -0.0060 -0.0167
deterioration factors used for durability demonstration 6)
---- ---- 0.000 0.00
5) according to BMW Evaporative Bench Test Procedure issued 08/08/01
6) according to 40 CFR §86.1824-01(c)
6.2. Test Results of Emission Data Vehicle
4K “whole vehicle” Evaporative Emission Test Data
Deterioration Factors
Compliance with Std.
Standard Unit
Test Vehicle Model VIN
325i, PD30007
325i, EE79359
Test Data + DF
Enhanced Evaporative Test 0.098 0.000 0.098 0.35 g
Supplemental Test 0.107 0.000 0.107 0.35 g
Running Loss Test 0.021 0.000 0.021 0.05 g/mi
Refueling Test 0.01 0.00 0.01 0.20 g/gal
4K “whole vehicle” Individual 24-hour test values
3-day Sequence [ g ]
2-day Sequence [ g ]
Diurnal 1st day: 2nd day: 3rd day:
0.098 0.052 0.040
0.081 0.066
----
Hot soak 0.000 0.026
Application for Certification
Common Section for Model Year 2005
Enclosure 6to Section 17Page 8 of 8
CS Part 1 Issued: 04/24/04
4K “fuel only” evaporative test data 7) (point source measurement at intake manifold of EDV
+ stick car test results)
Deterioration Factors
Compliance with Std. 8)
Standard
Unit
Test Vehicle Model VIN
325i, PD30007
325i, EE79359
Test Data + DF
Enhanced Evaporative Test 0.017 0.000 0.0 0.0 g
Supplemental Test 0.045 0.000 0.0 0.0 g
4K “fuel only” Individual 24-hour test values
3-day Sequence [ g ]
2-day Sequence [ g ]
Diurnal 1st day: 2nd day: 3rd day:
0,0044 0,0103 0,0073
0.0382 0.0367
----
Hot soak 0,0063 0.0059
point source measurement at intake manifold of EDV:
0,0008
0,0005
7) according to BMW Evaporative Bench Test Procedure issued 08/08/01 8) rounding according to ASTM-E29-93a
7. Compliance with the Evaporative Standards at the End of Useful Life
The compliance with the evaporative standards at the end of useful life is demonstrated by evaporative tests with the durability data vehicle selected for every durability group according to § 40 CFR 86.1820-01 and § 40 CFR 86.1822-01. The evaporative tests are carried out at the end of the durability run according to Common Section, item 16.4.
Application for Certification
Common Section for Model Year 2005
Enclosure 7to Section 17Page 1 of 8
CS Part 1 Issued: 04/24/04 Evaporative Emission Family 5BMXR0158N73 1. Evaporative Family Identification
5BMXR0158N73
Evap Code 73 – 6.0
Models 760Li, 760i 2. Parameters of Evaporative Family Refer to Common Section, Section 3.7 3. Selection of Emission Data Vehicle for Evaporative Emission 3.1. Worst Case Selection
The Worst Case selection is carried out according to the provisions in 40 CFR § 86.1828-01 (b)(3)
Evaporative / refueling control system
Evap. Code Model Canister
absorptive material
Purge system configuration
Purge strategy
Worst Case
1. 73 – 6.0 760Li, 760i granulated charcoal
tank - evaporative canister and evaporative canister - engine are connected alternatively by means of the Fuel Tank Purge Valve
Computer controlled by ECM
X
Application for Certification
Common Section for Model Year 2005
Enclosure 7to Section 17Page 2 of 8
CS Part 1 Issued: 04/24/04 3.2. Test Vehicle Description
Engine Family 3BMXV06.0N73
Vehicle Identification Number D P50 069
Evaporative Emission Code 73 – 6.0
Model 760Li, 760i
Emission Control System: 2 TWC, 2 A/F-Sensor, 2HO2S, DFI, AIR
Displacement 5972 cu. cm
Engine Code 6.0 N73
Evaporative Family 3BMXR0158N73
Equivalent Test Weight 5250
Actual Vehicle Weight
Curb Weight 4872 lb.
Drive Axle Weight 2359 lb.
Target Coefficients: A: 49.7
B: 0.268
C: 0.0175
Air Conditioning included
Transmission Type Semi-Automatic / 6-speed
Transmission Code GA6HP26Z
Axle Ratio 3.15
N/V Ratio 29.4
Tire Manufacturer Pirelli
Tire Size 245/50 R 18
Application for Certification
Common Section for Model Year 2005
Enclosure 7to Section 17Page 3 of 8
CS Part 1 Issued: 04/24/04 4. Selection of Durability Data Vehicle for Evaporative Emissions and for Refueling Emissions 4.1. Worst Case Selection
The Worst Case selection is carried out according to the provisions in 40 CFR § 86.1824-01 (b), 40 CFR § 86.1825-01 (b)
Evaporative / refueling control system Evap. Code Model Canister
absorptive material Purge system configuration
Purge strategy
Worst Case
1. 73 – 6.0 760Li, 760i granulated charcoal
tank - evaporative canister and evaporative canister - engine are connected alternatively by means of the Fuel Tank Purge Valve
Computer controlled by ECM
X
4.2. Test Vehicle Description
Engine Family 3BMXV06.0N73
Vehicle Identification Number D P50 050
Evaporative Emission Code 73 – 6.0
Model 760Li, 760i
Emission Control System: 2 TWC, 2 A/F-Sensor, 2HO2S, DFI, AIR
Displacement 5972 cu. cm
Engine Code 6.0 N73
Evaporative Family 3BMXR0158N73
Equivalent Test Weight 5250
Actual Vehicle Weight
Curb Weight 4872 lb.
Drive Axle Weight 2359 lb.
Target Coefficients: A: 49.7
B: 0.268
C: 0.0175
Air Conditioning included
Transmission Type Semi-Automatic / 6-speed
Transmission Code GA6HP26Z
Axle Ratio 3.15
N/V Ratio 29.4
Tire Manufacturer Pirelli
Tire Size 245/50 R 18
Application for Certification
Common Section for Model Year 2005
Enclosure 7to Section 17Page 4 of 8
CS Part 1 Issued: 04/24/04 5. Bench Test Procedure 5.1. Description of Bench Test Procedure Confidential Information,
Refer to Common Section, Section 16.4.1.2 5.2. Fuel Tank Temperature and Pressure Profile 5.2.1. Test Vehicle Description
Engine Family 3BMXV06.0N73
Vehicle Identification Number D P50 051
Evaporative Emission Code 73 – 6.0
Model 760Li, 760i
Emission Control System: 2 TWC, 2 A/F-Sensor, 2HO2S, DFI, AIR
Displacement 5972 cu. cm
Engine Code 6.0 N73
Evaporative Family 3BMXR0158N73
Equivalent Test Weight 5250
Actual Vehicle Weight
Curb Weight 4872 lb.
Drive Axle Weight 2359 lb.
Target Coefficients: A: 49.7
B: 0.268
C: 0.0175
Air Conditioning included
Transmission Type Semi-Automatic / 6-speed
Transmission Code GA6HP26Z
Axle Ratio 3.15
N/V Ratio 29.4
Tire Manufacturer Pirelli
Tire Size 245/50 R 18
Application for Certification
Common Section for Model Year 2005
Enclosure 7to Section 17Page 5 of 8
CS Part 1 Issued: 04/24/04 5.2.2. EPA Profile and Ambient Conditions
The temperature correction was conducted in accordance with the Federal Evaporative Emission Standards and Test Procedures after the following equation:
Ti ,profile = Ti - To Ti is the series of observed liquid fuel temperature during the drive (°F) where i is the incremental measurement in time To is the liquid fuel temperature observed at the start of the specified driving schedule (°F). Ti ,profile is the series of temperatures that comprise the relative temperature profile For table of Ti refer to Enclosure 8 of Common Section, Section 12.
6. Test Results for Evaporative Emissions and for Refueling Emissions 6.1. Test Results of Durability Data Vehicle, Calculation of Evaporative Emission, Running Losses
and Refueling Deterioration Factor
Stick Car
Mileage Enhanced
Evap. [ g/test ]
SupplementalEvap.
[ g/test ]
Running Losses [ g/mi ]
Refueling
[ g/gal ]
4000 (1. Set) 0.3754 0.4233 0.0082 0.0120
4000 (2. Set) 0.3408 0.7282 0.0065 0.1390
4000 (3. Set) 1.5923 0.8332 0.0443 0.1200
100 000 (1. Set) 0.5407 0.5123 0.0183 0.0290
100 000 (2. Set) 0.8423 0.7046 0.0438 0.1360
100 000 (3. Set) 0.4404 0.8293 0.0166 0.0780
Average Values
4 000 0.7695 0.6616 0.0197 0.0903
100 000 0.6078 0.6821 0.0262 0.0810
deterioration factor -0.1617 0.0205 0.0066 -0.0093
Application for Certification
Common Section for Model Year 2005
Enclosure 7to Section 17Page 6 of 8
CS Part 1 Issued: 04/24/04
The deterioration of the evaporative emission of the 7-series vehicle with 12-cylinder engine is identical to the 7 series vehicle with 8-cylinder engine. These models differentiate in the engine and the fuel supply system only. For the evaporative emission deterioration the influence of the engine (12-cylinders, direct fuel injection) is covered by following method in a worst case approach: All fuel leading parts in the engine compartment of the direct ignition are aged separately to 4K and 100K useful life. The fuel leading parts in the engine compartment:
- Fuel line assembly (stainless steel) - High pressure fuel pump - Injection rail - Injection valves
These parts are built in a stabilized 760Li model and evaporative test are carried out. The difference of the vehicle equipped with 100k parts and 4k parts is the deterioration of the 12-cylinder fuel system only. The resulting evaporative deterioration factors of the whole vehicle are the sum of the respective 8-cylinder vehicle deterioration factors and the deterioration factors of the fuel system of the 12-cylinder engine.
DFwhole vehicle,12-cylinder = DFwhole vehicle,8-cylinder + DF12-cylinder,fuel supply system
760Li equipped with aged direct ignition parts representing 12-cylinder engine evaporative emission deterioraton
( D P50 051 )
mileage Enhanced
Evap. [ g/test ]
SupplementalEvap.
[ g/test ]
Running Losses [ g/mi ]
Refueling
[ g/gal ]
4 000 0.6820 1.4490 0.0230 0.0310
100 000 0.5800 0.6380 0.0270 0.0100
deterioration factor (DF12 cylinder, fuel supply
system) -0.1020 -0.8110 -0.0040 -0.0210
For evaporative emission deterioration of the 7-series eight cylinder model please refer to Common Section, Section 17 enclosure 3.
8 - cylinder engine whole vehicle
( D P50 025 )
mileage Enhanced
Evap. [ g/test ]
Supplemental Evap.
[ g/test ]
Running Losses [ g/mi ]
Refueling
[ g/gal ]
deterioration factor ( DF8-cylinder ) 1)
0.2133 - 0.1160 0,0015 - 0.0440
1) according to BMW Evaporative Bench Test Procedure issued 08/08/01
Application for Certification
Common Section for Model Year 2005
Enclosure 7to Section 17Page 7 of 8
CS Part 1 Issued: 04/24/04
12 cylinder engine whole vehicle: calculated deterioration factors
mileage Enhanced
Evap. [ g/test ]
SupplementalEvap.
[ g/test ]
Running Losses [ g/mi ]
Refueling
[ g/gal ]
deterioration factor DF12 cylinder, fuel supply system
-0.1020 -0.8110 -0.0040 -0.0210
deterioration factor DF8-cylinder
0.2133 - 0.1160 0,0015 - 0.0440
calculated deterioration factors DFwhole vehicle, 12-cylinder
0,1113 -0,9270 -0,0025 -0,0650
calculated deterioration factors
mileage Enhanced
Evap. [ g/test ]
SupplementalEvap.
[ g/test ]
Running Losses [ g/mi ]
Refueling
[ g/gal ]
calculated deterioration factors
1) -0,0252 -0,4533 0,00203 -0,0372
deterioration factors used for durability demonstration 2)
0,00 0,00 0,002 0,00
1) according to BMW Evaporative Bench Test Procedure issued 08/08/01 2) according to 40 CFR §86.1824-01(c)
Application for Certification
Common Section for Model Year 2005
Enclosure 7to Section 17Page 8 of 8
CS Part 1 Issued: 04/24/04 6.2. Test Results of Emission Data Vehicle
4K Evaporative Emission Test Data Deterioration Factors
Compliance with Std.
Standard Unit
Test Vehicle Model VIN
760Li, D P50 069
745Li, 760Li, D P50 025, D P50 051
Test Data + DF
Enhanced Evaporative Test 1,063 0,00 1.0630 2.0 g
Supplemental Test 0,555 0,00 0,555 2.5 g
Running Loss Test 0,45 0,002 0.0470 0.05 g/mi
Refueling Test 0,12 0,00 0,12 0.2 g/gal
Individual 24-hour test values 3-day Sequence [ g ]
2-day Sequence [ g ]
Diurnal 1st day: 2nd day: 3rd day:
0.967 0.521 0.578
0.455 0.386
----
Hot soak 0.096 0.100 7. Compliance with the Evaporative Standards at the End of Useful Life
The compliance with the evaporative standards at the end of useful life is demonstrated by evaporative tests with the durability data vehicle selected for every durability group according to § 40 CFR 86.1820-01 and § 40 CFR 86.1822-01. The evaporative tests are carried out at the end of the durability run according to Common Section, item 16.4.
Application for Certification
Common Section for Model Year 2005
Enclosure 8to Section 17Page 1 of 7
CS Part 1 Issued: 04/24/04 Evaporative Emission Family 5BMXR0090E60 1. Evaporative Family Identification
5BMXR0090E60
Evap Code 60 – 2.5 60 – 3.0 60 – 4.4
Models 525i 530i 545i 645Ci
645Ci convertible 2. Parameters of Evaporative Family Refer to Common Section, Section 3.8 3. Selection of Emission Data Vehicle for Evaporative Emission 3.1. Worst Case Selection
The Worst Case selection is carried out according to the provisions in 40 CFR § 86.1828-01 (b)(3)
Evaporative / refueling control system
Evap. Code Model Canister
absorptive material
Purge system configuration
Purge strategy
Worst Case
1. 60 – 2.5 525i
2. 60 – 3.0 530i X
3. 60 – 4.4 545i
645Ci 645Ci conv.
granulated charcoal
tank - evaporative canister and evaporative canister - engine are connected alternatively by means of the Fuel Tank Purge Valve
Computer controlled by ECM
Application for Certification
Common Section for Model Year 2005
Enclosure 8to Section 17Page 2 of 7
CS Part 1 Issued: 04/24/04 3.2. Test Vehicle Description
Engine Family 4BMXX03.0UL2
Vehicle Identification Number B100023
Evaporative Emission Code 60 – 3.0
Model 530i
Emission Control System: 2TWC, 2 A/F-Sensor, 2H02S, SFI, AIR
Displacement 2979 cu. cm
Engine Code 3.0-A-UL2-B01
Evaporative Family 4BMXR0090E60
Equivalent Test Weight 3750
Actual Vehicle Weight
Curb Weight 3494 lb.
Drive Axle Weight 1662 lb.
Target Coefficients: A: 42.9
B: 0.151
C: 0.01776
Air Conditioning included
Transmission Type semi automatic six speed
Transmission Code GA6HP19Z
Axle Ratio 3,46
N/V Ratio 32,23
Tire Manufacturer Michelin
Tire Size 225/55R16
Application for Certification
Common Section for Model Year 2005
Enclosure 8to Section 17Page 3 of 7
CS Part 1 Issued: 04/24/04 4. Selection of Durability Data Vehicle for Evaporative Emissions and for Refueling Emissions 4.1. Worst Case Selection
The Worst Case selection is carried out according to the provisions in 40 CFR § 86.1824-01 (b), 40 CFR § 86.1825-01 (b)
Evaporative / refueling control system
Evap. Code Model Canister
absorptive material
Purge system configuration
Purge strategy
Worst Case
1. 60 – 2.5 525i
2. 60 – 3.0 530i X
3. 60 – 4.4 545i
645Ci 645Ci conv.
granulated charcoal
tank - evaporative canister and evaporative canister - engine are connected alternatively by means of the Fuel Tank Purge Valve
Computer controlled by ECM
4.2. Test Vehicle Description
Engine Family 4BMXX03.0UL2 Vehicle Identification Number B057001 Evaporative Emission Code 60 – 3.0 Model 530i Emission Control System: 2TWC, 2 A/F-Sensor, 2H02S,
SFI, AIR Displacement 2979 cu. cm Engine Code 3.0-A-UL2-B01 Evaporative Family 4BMXR0090E60 Equivalent Test Weight 3750 Actual Vehicle Weight Curb Weight 3494 lb. Drive Axle Weight 1662 lb. Target Coefficients: A: 42.9 B: 0.151 C: 0.01776 Air Conditioning included Transmission Type semi automatic six speed Transmission Code GA6HP19Z Axle Ratio 3,46 N/V Ratio 32,23 Tire Manufacturer Michelin Tire Size 225/55R16
Application for Certification
Common Section for Model Year 2005
Enclosure 8to Section 17Page 4 of 7
CS Part 1 Issued: 04/24/04 5. Bench Test Procedure 5.1. Description of Bench Test Procedure Confidential Information,
Refer to Common Section, Section 16.4.1.2 5.2. Fuel Tank Temperature and Pressure Profile 5.2.1. Test Vehicle Description
Engine Family 4BMXX03.0UL2
Vehicle Identification Number B057005
Evaporative Emission Code 60 – 3.0
Model 530i
Emission Control System: 2TWC, 2 A/F-Sensor, 2H02S, SFI, AIR
Displacement 2979 cu. cm
Engine Code 3.0-A-UL2-B01
Evaporative Family 4BMXR0090E60
Equivalent Test Weight 3750
Actual Vehicle Weight
Curb Weight 3494 lb.
Drive Axle Weight 1662 lb.
Target Coefficients: A: 42.9
B: 0.151
C: 0.01776
Air Conditioning included
Transmission Type semi automatic six speed
Transmission Code GA6HP19Z
Axle Ratio 3,46
N/V Ratio 32,23
Tire Manufacturer Dunlop
Tire Size 225/55R16
Application for Certification
Common Section for Model Year 2005
Enclosure 8to Section 17Page 5 of 7
CS Part 1 Issued: 04/24/04 5.2.2. EPA Profile and Ambient Conditions
The temperature correction was conducted in accordance with the Federal Evaporative Emission Standards and Test Procedures after the following equation:
Ti ,profile = Ti - To Ti is the series of observed liquid fuel temperature during the drive (°F) where i is the incremental measurement in time To is the liquid fuel temperature observed at the start of the specified driving schedule (°F). Ti ,profile is the series of temperatures that comprise the relative temperature profile For table of Ti refer to Enclosure 5 of Common Section, Section 12.
6. Test Results for Evaporative Emissions and for Refueling Emissions 6.1. Test Results of Durability Data Vehicle, Calculation of Evaporative Emission, Running Losses
and Refueling Deterioration Factor
Stick Car
Mileage Enhanced
Evap. [ g/test ]
SupplementalEvap.
[ g/test ]
Running Losses [ g/mi ]
Refueling
[ g/gal ]
4000 (1. Set) 0.0582 0.0380 0.0006 0.0690
4000 (2. Set) 0.0305 0.0348 0.0006 0.0820
4000 (3. Set) 0.0351 0.1786 0.0003 0.0770
150 000 (1. Set) 0.0286 0.1008 0.0003 0.0940
150 000 (2. Set) 0.0284 0.0403 0.0003 0.1020
150 000 (3. Set) 0.0439 0.0450 0.0003 0.0990
Average Values
4 000 0.0413 0.0838 0.0005 0.0760
150 000 0.0336 0.0620 0.0003 0.0983
deterioration factor -0.0076 -0.0218 -0.0002 0.0223
Application for Certification
Common Section for Model Year 2005
Enclosure 8to Section 17Page 6 of 7
CS Part 1 Issued: 04/24/04
Whole vehicle ( B057001 )
mileage Enhanced
Evap. [ g/test ]
SupplementalEvap.
[ g/test ]
Running Losses [ g/mi ]
Refueling
[ g/gal ]
4 000 0.3530 0.3130 0.0110 0.0130
150 000 0.2060 0.4292 0.0200 0.1150
deterioration factor -0.1470 0.1162 0.0090 0.1020
calculated deterioration factors
mileage Enhanced
Evap. [ g/test ]
SupplementalEvap.
[ g/test ]
Running Losses [ g/mi ]
Refueling
[ g/gal ]
calculated deterioration factors 1) -0.0773 0.0472 0.0044 0.0622
deterioration factors used for durability demonstration 2)
0.00 0.05 0.004 0.06
1) according to BMW Evaporative Bench Test Procedure issued 08/08/01 2) according to 40 CFR §86.1824-01(c)
6.2. Test Results of Emission Data Vehicle
4K Evaporative Emission Test Data Deterioration Factors
Compliance with Std.
Standard Unit
Test Vehicle Model VIN
530i, B100023
530i, B057001
Test Data + DF
Enhanced Evaporative Test 0.231 0.00 0.231 0.50 g
Supplemental Test 0.259 0.05 0.309 0.650 g
Running Loss Test 0.015 0.004 0.019 0.05 g/mi
Refueling Test 0.055 0.06 0.115 0.20 g/gal
Individual 24-hour test values 3-day Sequence [ g ]
2-day Sequence [ g ]
Diurnal 1st day: 2nd day: 3rd day:
0.216 0.129 0.109
0.225 0.155
----
Hot soak 0.015 0.034
Application for Certification
Common Section for Model Year 2005
Enclosure 8to Section 17Page 7 of 7
CS Part 1 Issued: 04/24/04 7. Compliance with the Evaporative Standards at the End of Useful Life
The compliance with the evaporative standards at the end of useful life is demonstrated by evaporative tests with the durability data vehicle selected for every durability group according to § 40 CFR 86.1820-01 and § 40 CFR 86.1822-01. The evaporative tests are carried out at the end of the durability run according to Common Section, item 16.4.
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