ASTM D5500-1998(2003)e1 Standard Test Method for Vehicle Evaluation of Unleaded Automotive Spark-Ignition Engine Fuel for Intake Valve Deposit Formation《进液阀门沉积形成的不含铅自动火花点火引擎燃料的车辆评价.pdf

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1、Designation: D 5500 98 (Reapproved 2003)e1An American National StandardStandard Test Method forVehicle Evaluation of Unleaded Automotive Spark-IgnitionEngine Fuel for Intake Valve Deposit Formation1This standard is issued under the fixed designation D 5500; the number immediately following the desig

2、nation indicates the year oforiginal adoption or, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. Asuperscript epsilon (e) indicates an editorial change since the last revision or reapproval.e1NOTEWarning notes were editorially moved

3、 into the standard text in November 2003.1. Scope1.1 This test method covers a vehicle test procedure forevaluation of intake valve deposit formation of unleadedspark-ignition engine fuels. This test method uses a 1985model BMW 318i2vehicle. Mileage is accumulated followinga specified driving schedu

4、le on either public road or test track.This test method is adapted from the original BMW of NorthAmerica/Southwest Research Institute Intake Valve Deposittest and maintains as much commonality as possible with theoriginal test. Chassis dynamometers shall not be used for thistest procedure as the BMW

5、 NA/SwRI IVD Test was notintended to be applicable to chassis dynamometers and nocorrelation between road operation and chassis dynamometershas been established.NOTE 1If there is any doubt as to the latest edition of Test MethodD 5500, contact ASTM International.1.2 The values stated in SI or inch-p

6、ound units shall beregarded separately as standard. The values stated in eachsystem may not be exact equivalents; therefore, each systemmust be used independently of the other, without combiningvalues in any way.1.3 This standard does not purport to address all of thesafety concerns, if any, associa

7、ted with its use. It is theresponsibility of the user of this standard to establish appro-priate safety and health practices and determine the applica-bility of regulatory limitations prior to use. Specific statementson hazards are given throughout this test method.2. Referenced Documents2.1 ASTM St

8、andards:3D 235 Specification for Mineral Spirits (Petroleum Spirits)(Hydrocarbon Dry Cleaning Solvents)2.2 ANSI Standard:MC 96.1 American National Standard for TemperatureMeasurement Thermocouples43. Terminology3.1 Definitions of Terms Specific to This Standard:3.1.1 alternate mileage accumulation (

9、AMA) driving cycle,na driving schedule that is based on the U.S. EnvironmentalProtection Agency Durability Driving Schedule, which con-tains various driving patterns for durability testing of emissioncontrol systems.53.1.2 base fuel, nunleaded automotive spark-ignition en-gine fuel that does not con

10、tain a deposit control additive, butmay contain antioxidants, corrosion inhibitors, metal deactiva-tors, and oxygenates.3.1.3 deposit control additive, nmaterial added to the basefuel to prevent or remove deposits in the entire engine intakesystem.3.1.3.1 DiscussionFor the purpose of this test metho

11、d, theperformance evaluation of a deposit control additive is limitedto the tulip area of intake valves.3.1.4 driveability, nthe quality of a vehicles performancecharacteristics as perceived by the operator in response tochanges in throttle position.3.1.4.1 DiscussionThe performance characteristics

12、mayinclude cold starting and warm-up, acceleration, vapor lock,and hot starting.1This test method is under the jurisdiction of ASTM Committee D02 onPetroleum Products and Lubricants and is the direct responsibility of SubcommitteeD02.A0 on Gasoline and Oxygenated Fuels.Current edition approved Nov.

13、1, 2003. Published November 2003. Originallyapproved in 1994. Last previous edition approved in 1998 as D 550098.2Originally obtained from BMW NA new car dealerships in the United States asa 1985 model year vehicle, the vehicle is currently available through the usedvehicle market.3For referenced AS

14、TM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer Service at serviceastm.org. For Annual Book of ASTMStandards volume information, refer to the standards Document Summary page onthe ASTM website.4Available from American National Standards Institute (ANSI), 25 W. 43rd St.,4t

15、h Floor, New York, NY 10036.5Code of Federal Regulations, Title 40, Part 86, Appendix IV.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.3.1.5 intake system, ncomponents of the engine whosefunction it is to prepare and deliver an air

16、/fuel mixture to thecombustion chamber and includes the throttle, intake manifoldhot spot and runners, exhaust gas recirculation (EGR) andpositive crankcase ventilation (PCV) ports, cylinder headrunners and ports, intake valves, and fuel injectors.3.1.6 intake valve deposit, nmaterial accumulated on

17、 thetulip area of the intake valve, generally composed of carbon,other fuel, lubricant, and additive decomposition products, andatmospheric contaminants.3.1.7 merit rating, nthe visual evaluation by a trainedrater of the volume of deposits accumulated on a specificengine component based on a compari

18、son with a referencescale (see CRC Manual 16).63.1.8 test fuel, nbase fuel with or without the addition ofa deposit control additive which is used to accumulate mileageas described in this test method.3.1.9 vehicle exhaust emissions (tailpipe), ncombustionproducts from the test fuel including unburn

19、ed hydrocarbons(HC), carbon monoxide (CO), carbon dioxide (CO2), oxygen(O2), and oxides of nitrogen (NOx).4. Summary of Test Method4.1 This test method utilizes a 1985 BMW 318i vehicleequipped with a four-speed automatic transmission and airconditioning. This vehicle is equipped with a four-stroke c

20、ycle,four-cylinder engine having a total displacement of 1.8 L. Thecylinder head is an aluminum alloy casting and the cylinderblock is cast iron. The engine features an overhead camshaft,hemispherical combustion chambers, two valves per cylinder,and electronic port fuel injection.4.2 Each test begin

21、s with a clean, rebuilt cylinder head thatmeets a rigid set of specifications. New, weighed intake valvesare used to rebuild the cylinder head. A standard engine oil isused for each test and a new oil filter is installed. All routinevehicle maintenance is performed in accordance with BMWSchedule I a

22、nd Schedule II service lists. The test vehicles fuelsystem is flushed of fuel from the previous test. The vehiclefuel tank is then filled with the new test fuel. The vehicle issubjected to a rigorous quality control procedure to verifyproper engine and overall vehicle operation. To ensure com-plianc

23、e to the test objective, a data logger is active at all timesafter the test has begun, during all mileage accumulation andsoak time.4.3 The vehicle is operated on a cycle consisting of 10 %(based on mileage) city (part of the AMA driving schedule),20 % suburban, and 70 % highway mode per day. This c

24、ycle isrepeated to accumulate a minimum of 16 090 km (10 000miles) but no more than 16 250 km (10 100 miles).4.4 After the required mileage (see 10.4.5) has been accu-mulated, the cylinder head is removed from the engine anddisassembled. The valves are weighed, visually assigned meritratings, and ph

25、otographed. Operational and mechanical criteriaare then reviewed to determine if the test shall be consideredvalid.5. Significance and Use5.1 Test MethodIt was determined through field testingthat intake valve deposits could adversely affect the driveabil-ity of certain automobiles.7Southwest Resear

26、ch Institute andBMW of North America (BMW NA) jointly conducted testingto develop this test method to determine an unleaded automo-tive spark-ignition engine fuels propensity to form intakevalve deposits. This testing concluded that if an automotivespark-ignition engine fuel could keep intake valve

27、deposits ator below a certain average weight per valve at the end ofmileage accumulation, then that automotive spark-ignitionengine fuel could be used in the BMW vehicle-engine combi-nation for a specified period without intake valve depositscausing driveability degradation. Minimizing intake valved

28、eposits may be necessary to maintain vehicle driveability andtailpipe emissions control.5.1.1 State and Federal Legislative and RegulatoryActionLegislative activity and rulemaking primarily by Cali-fornia Air Resources Board8and the Environmental ProtectionAgency9necessitate the acceptance of a stan

29、dardized testmethod to evaluate the intake system deposit forming tendencyof an automotive spark-ignition engine fuel.5.1.2 Relevance of ResultsThe operating conditions anddesign of the engine and vehicle used in this test method arenot representative of all modern automobiles. These factorsshall be

30、 considered when interpreting test results.5.2 Test Validity:5.2.1 Procedural ComplianceThe test results are not con-sidered valid unless the test is completed in compliance with allrequirements of this test method. Deviations from the param-eter limits presented in Sections 10 and 11 will result in

31、 aninvalid test. Engineering judgment shall be applied duringconduct of the test method when assessing any anomalies toensure validity of the test results.5.2.2 Vehicle ComplianceA test is not considered validunless the vehicle met the quality control inspection require-ments as described in Section

32、 10.6. Apparatus6.1 AutomobileThe test automobile used for this proce-dure is a 1985 model BMW 318i. The powerplant is a 1.8L-line four-cylinder, four-stroke cycle engine with singleoverhead camshaft, two valves per cylinder, and electronic portfuel injection. Vehicles equipped with four-speed autom

33、atictransmissions and air conditioning are required for the testmethod. Both 49 state and California engine calibrations areallowed for this test method.6.1.1 Engine Cooling SystemExperience has shown thatthe original equipment cooling system has marginal perfor-mance at ambient conditions above app

34、roximately 35C(95F). To ensure engine coolant temperature compliance with6CRC Manual 16, Carburetor and Induction System Rating Manual. Availablefrom the Coordinating Research Council Inc., 219 Perimeter Center Parkway,Atlanta, GA 30346.7Bitting, B., et al., “Intake Valve Deposits-Fuel Detergency Re

35、visited,” SAE872117, Society of Automotive Engineers, 1987.8State of California Air Resources Board-Stationary Source Division, TestMethod for Evaluating Intake Valve Deposits (IVDs) in Vehicle Engines (CaliforniaCode of Regulations, Title 13, Section 2257).9Clean Air Act Amendments of 1990.D 5500 9

36、8 (2003)e12test validity criteria in 10.4.3, the vehicle may be retrofittedwith the radiator and other appropriate components as outlinedin Annex A1.6.1.2 Electronic Port Fuel Injectors Prior to installation,all injectors shall be evaluated for conformance to spray-pattern and flow rate acceptance c

37、riteria (see 8.5). Injectorsmay be reused if the criteria are satisfied.6.1.3 TiresTires shall be size P195/60R14, maintained at190 6 10 kPa (28 6 1 psi).6.1.4 Miscellaneous PartsAll powertrain components,front end accessory drive, air intake system, and exhaustsystem, except as specified, shall be

38、original equipment,original equipment manufacturer replacement parts, or equiva-lent.6.1.5 New Engine Parts RequiredTable 1 contains thosenew parts with the corresponding BMW NA part number to beused for preparing the vehicle to run this test method.6.1.5.1 Other parts may be necessary and are liste

39、d in AnnexA2.6.1.6 Disable Cruise ControlDisconnect cruise controlcable from the throttle. The cruise control shall not be used forthis test method.6.1.7 Reusable Engine PartsThe parts listed in Table 2may be reused. The replacement frequency is noted in thefootnotes. All parts shall be discarded wh

40、en they becomeunserviceable. See Annex A3 for guidelines regarding the reuseof parts.6.2 Laboratory Facilities:6.2.1 Engine/Cylinder Head Build-up and MeasurementAreaThe ambient atmosphere of the engine build-up andmeasurement area shall be reasonably free of contaminants andmaintained at a uniform

41、temperature 63C (65F) between 10to 27C (50 to 80F). Uniform temperature is necessary toensure repeatable dimensional measurements and depositevaluation. The specific humidity shall be maintained at auniform comfortable level.6.2.2 Part Rating and Intake Valve Weighing AreaTheambient atmosphere of th

42、e rating and weighing area shall bereasonably free of contaminants. The induction system ratingsshall be performed in accordance to CRC Manual 16, Carbu-retor and Induction System Rating Manual.6.2.3 Fuel Injector Testing AreaThe ambient atmosphereof the fuel injector testing area shall be reasonabl

43、y free ofcontaminants. The temperature and humidity shall be main-tained at a uniform level to ensure repeatable measurements.This area shall be ventilated for health and safety reasons inaccordance with all regulations. (WarningProvide adequateventilation and fire protection in areas where flammabl

44、e orvolatile liquids and solvents, or both, are used. Suitableprotective clothing is recommended.)6.2.4 Intake Valve Rinsing and Parts Cleaning AreaTheambient atmosphere of the intake valve rinsing and partscleaning area shall be reasonably free of contaminants. Thetemperature shall be maintained at

45、 63C (65F) between 10to 27C (50 to 80F). The specific humidity shall be maintainedat a uniform comfortable level. Because of the delicate natureof the deposits, do not subject the deposits to extreme changesin temperature or humidity. (WarningSee 6.2.3.)6.2.5 Garage/Maintenance AreaThe ambient atmos

46、phereof the garage/maintenance area shall be reasonably free ofcontaminants. The temperature and humidity shall be main-tained at a uniform, comfortable level. Because of the delicatenature of the deposits, do not subject the deposits to extremechanges in temperature or humidity. (WarningAdequateven

47、tilation and fire protection are necessary in areas whereautomotive spark-ignition engine fuel and deposit controladditives are handled, and also when concerning the venting ofthe vehicle exhaust and working on vehicle fuel systems.Suitable protective clothing is recommended.)6.2.6 Test Fuel Blendin

48、g Facilities Instead of supplying afinished test fuel, the test sponsor may supply concentratedadditive in bulk to the test laboratory. The test requestor shallobtain concurrence from the test laboratory regarding thesupply of base fuels and additives and their packaging. Forthose laboratories offer

49、ing the capability of blending additiveand base fuel, the laboratories shall have the ability to handleand blend the additive into fuel supplied in either bulk or 210-L(55-gal) drums, or both. The laboratory shall have an appro-priate balance or graduated cylinder to blend the additive at therecommended concentrations expressed as a volumetric ormass ratio. The base fuel and additive shall be placed, at theappropriate ratio, into 210-L (55-gal) drums or bulk storagetanks and clearly labeled. Provisions to stir or recirculate thefuel/addi

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