ASTM D2700-2010 Standard Test Method for Motor Octane Number of Spark-Ignition Engine Fuel《火花点火发动机燃料的马达法辛烷值的标准试验方法》.pdf

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1、Designation: D2700 10Designation: 236/87Standard Test Method forMotor Octane Number of Spark-Ignition Engine Fuel1This standard is issued under the fixed designation D2700; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, the year o

2、f last revision. A number in parentheses indicates the year of last reapproval. Asuperscript epsilon () indicates an editorial change since the last revision or reapproval.This standard has been approved for use by agencies of the Department of Defense.1. Scope*1.1 This laboratory test method covers

3、 the quantitativedetermination of the knock rating of liquid spark-ignitionengine fuel in terms of Motor octane number except that thistest method may not be applicable to fuel and fuel componentsthat are primarily oxygenates.2The sample fuel is tested in astandardized single cylinder, four-stroke c

4、ycle, variable com-pression ratio, carbureted, CFR engine run in accordance witha defined set of operating conditions. The octane number scaleis defined by the volumetric composition of primary referencefuel blends. The sample fuel knock intensity is compared tothat of one or more primary reference

5、fuel blends. The octanenumber of the primary reference fuel blend that matches theknock intensity of the sample fuel establishes the Motor octanenumber.1.2 The octane number scale covers the range from 0 to 120octane number, but this test method has a working range from40 to 120 octane number. Typic

6、al commercial fuels producedfor automotive spark-ignition engines rate in the 80 to 90Motor octane number range. Typical commercial fuels pro-duced for aviation spark-ignition engines rate in the 98 to 102Motor octane number range. Testing of gasoline blend stocksor other process stream materials ca

7、n produce ratings at variouslevels throughout the Motor octane number range.1.3 The values of operating conditions are stated in SI unitsand are considered standard. The values in parentheses are thehistorical inch-pounds units. The standardized CFR enginemeasurements continue to be in inch-pound un

8、its only becauseof the extensive and expensive tooling that has been created forthis equipment.1.4 This standard does not purport to address all of thesafety concerns, if any, associated with its use. It is theresponsibility of the user of this standard to establish appro-priate safety and health pr

9、actices and determine the applica-bility of regulatory limitations prior to use. For more specifichazard statements, see Section 8, 13.4.1, 14.5.1, 15.6.1, AnnexA1, A2.2.3.1, A2.2.3.3(6) and (9), A2.3.5, X3.3.7, X4.2.3.1,X4.3.4.1, X4.3.9.3, X4.3.12.4, and X4.5.1.8.2. Referenced Documents2.1 ASTM Sta

10、ndards:3D1193 Specification for Reagent WaterD2268 Test Method for Analysis of High-Purity n-Heptaneand Isooctane by Capillary Gas ChromatographyD2360 Test Method for Trace Impurities in MonocyclicAromatic Hydrocarbons by Gas ChromatographyD2699 Test Method for Research Octane Number of Spark-Igniti

11、on Engine FuelD2885 Test Method for Determination of Octane Numberof Spark-Ignition Engine Fuels by On-Line Direct Com-parison TechniqueD3703 Test Method for Hydroperoxide Number of AviationTurbine Fuels, Gasoline and Diesel FuelsD4057 Practice for Manual Sampling of Petroleum andPetroleum ProductsD

12、4175 Terminology Relating to Petroleum, PetroleumProducts, and LubricantsD4177 Practice for Automatic Sampling of Petroleum andPetroleum ProductsD4814 Specification for Automotive Spark-Ignition EngineFuelD5842 Practice for Sampling and Handling of Fuels forVolatility MeasurementD6304 Test Method fo

13、r Determination of Water in Petro-leum Products, Lubricating Oils, and Additives by Coulo-metric Karl Fischer TitrationE344 Terminology Relating to Thermometry and Hydrom-etry1This test method is under the jurisdiction of ASTM Committee D02 onPetroleum Products and Lubricants and is the direct respo

14、nsibility of SubcommitteeD02.01 on Combustion Characteristics.Current edition approved Oct. 1, 2010. Published December 2010. Originallyapproved in 1968. Last previous edition approved in 2009 as D2700091. DOI:10.1520/D2700-10.2Research octane number, determined using Test Method D2699, is a compani

15、onmethod to provide a similar but typically higher octane rating under milderoperating conditions.3For referenced ASTM 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 Docu

16、ment Summary page onthe ASTM website.1*A Summary of Changes section appears at the end of this standard.Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.E456 Terminology Relating to Quality and StatisticsE542 Practice for Calibration o

17、f Laboratory VolumetricApparatus2.2 ANSI Standard:4C-39.1 Requirements for Electrical Analog Indicating In-struments2.3 Energy Institute Standard:IP 224/02 Determination of Low Lead Content of LightPetroleum Distillates by Dithizone Extraction and Colo-rimetric Method53. Terminology3.1 Definitions:3

18、.1.1 accepted reference value, na value that serves as anagreed-upon reference for comparison, and which is derivedas: (1) a theoretical or established value, based on scientificprinciples, (2) an assigned or certified value, based on experi-mental work of some national or international organization

19、, or(3) a consensus or certified value, based on collaborativeexperimental work under the auspices of a scientific orengineering group. E4563.1.1.1 DiscussionIn the context of this test method,accepted reference value is understood to apply to the Motoroctane number of specific reference materials d

20、eterminedempirically under reproducibility conditions by the NationalExchange Group or another recognized exchange testing orga-nization.3.1.2 Check Fuel, nfor quality control testing, a spark-ignition engine fuel of selected characteristics having an octanenumber accepted reference value (O.N.ARV)

21、determined byround-robin testing under reproducibility conditions.3.1.3 cylinder height, nfor the CFR engine, the relativevertical position of the engine cylinder with respect to thepiston at top dead center (tdc) or the top machined surface ofthe crankcase.3.1.4 detonation meter, analog, nfor knock

22、 testing, theanalog signal conditioning instrumentation that accepts theelectrical signal from the detonation pickup and provides anoutput signal for display.3.1.5 detonation meter, digital, nfor knock testing, thedigital signal conditioning instrumentation that accepts theelectrical signal from the

23、 detonation pickup and provides adigital output signal for display.3.1.6 detonation pickup, nfor knock testing,amagnetostrictive-type transducer that threads into the enginecylinder and is exposed to combustion chamber pressure toprovide an electrical signal that is proportional to the rate-of-chang

24、e of cylinder pressure.3.1.7 dial indicator reading, nfor the CFR engine,anumerical indication of cylinder height, in thousandths of aninch, indexed to a basic setting at a prescribed compressionpressure when the engine is motored.3.1.8 digital counter reading, nfor the CFR engine,anumerical indicat

25、ion of cylinder height, indexed to a basicsetting at a prescribed compression pressure when the engine ismotored.3.1.9 dynamic fuel level, nfor knock testing, test proce-dure in which the fuel-air ratio for maximum knock intensityfor sample and reference fuels is determined using the fallinglevel te

26、chnique that changes carburetor fuel level from a highor rich mixture condition to a low or lean mixture condition, ata constant rate, causing knock intensity to rise to a maximumand then decrease, thus permitting observation of the maxi-mum knockmeter reading.3.1.10 equilibrium fuel level, nfor kno

27、ck testing, testprocedure in which the fuel-air ratio for maximum knockintensity for sample and reference fuels is determined bymaking incremental step changes in fuel-air ratio, observingthe equilibrium knock intensity for each step, and selecting thelevel which produces the highest knock intensity

28、 reading.3.1.11 firing, nfor the CFR engine, operation of the CFRengine with fuel and ignition.3.1.12 fuel-air ratio for maximum knock intensity, nforknock testing, that proportion of fuel to air that produces thehighest knock intensity for each fuel in the knock testing unit,provided this occurs wi

29、thin specified carburetor fuel levellimits.3.1.13 guide tables, nfor knock testing, the specific rela-tionship between cylinder height (compression ratio) andoctane number at standard knock intensity for specific primaryreference fuel blends tested at standard or other specifiedbarometric pressure.3

30、.1.14 knock, nin a spark-ignition engine, abnormal com-bustion, often producing audible sound, caused by autoignitionof the air/fuel mixture. D41753.1.15 knock intensity, nfor knock testing, a measure ofthe level of knock.3.1.16 knockmeter, analog, nfor knock testing,the0to100 division analog indica

31、ting meter that displays the knockintensity signal from the analog detonation meter.3.1.17 knockmeter, digital, nfor knock testing,the0to999 division digital indicating software meter that displays theknock intensity from the digital detonation meter.3.1.18 motoring, nfor the CFR engine, operation o

32、f theCFR engine without fuel and with the ignition shut off.3.1.19 motor octane number, nfor spark-ignition enginefuel, the numerical rating of knock resistance obtained bycomparison of its knock intensity with that of primary refer-ence fuels when both are tested in a standardized CFR engineoperati

33、ng under the conditions specified in this test method.3.1.20 octane number, nfor spark-ignition engine fuel,any one of several numerical indicators of resistance to knockobtained by comparison with reference fuels in standardizedengine or vehicle tests. D41753.1.21 oxygenate, nan oxygen-containing o

34、rganic com-pound, which may be used as a fuel or fuel supplement, forexample, various alcohols and ethers. D41753.1.22 primary reference fuel blends above 100 octane,nthe millilitres per U.S. gallon of tetraethyllead in isooctane4Available from American National Standards Institute (ANSI), 25 W. 43r

35、d St.,4th Floor, New York, NY 10036, http:/www.ansi.org.5Available from Energy Institute, 61 New Cavendish St., London, WIG 7AR,U.K., http:/www.energyinst.org.uk.D2700 102that define octane numbers above 100 in accordance with anempirically determined relationship.3.1.23 primary reference fuels, nfo

36、r knock testing, isooc-tane, n-heptane, volumetrically proportioned mixtures of isooc-tane with n-heptane, or blends of tetraetyllead in isooctane thatdefine the octane number scale.3.1.24 primary reference fuel blends below 100 octane,nthe volume percent of isooctane in a blend with n-heptanethat d

37、efines the octane number of the blend, isooctane beingassigned as 100 and n-heptane as zero octane number.3.1.25 repeatability conditions, nconditions where inde-pendent test results are obtained with the same method onidentical test items in the same laboratory by the same operatorusing the same eq

38、uipment within short intervals of time.E4563.1.25.1 DiscussionIn the context of this test method, ashort time interval between two ratings on a sample fuel isunderstood to be not less than the time to obtain at least onerating on another sample fuel between them but not so long asto permit any signi

39、ficant change in the sample fuel, testequipment, or environment.3.1.26 reproducibility conditions, nconditions where testresults are obtained with the same method on identical testitems in different laboratories with different operators usingdifferent equipment. E4563.1.27 spread, nin knock measurem

40、ent, the sensitivity ofthe analog detonation meter expressed in knockmeter divisionsper octane number. (This feature is not a necessary adjustmentin the digital detonation meter.)3.1.28 standard knock intensity, analog, nfor knock test-ing, that level of knock established when a primary referencefue

41、l blend of specific octane number is used in the knocktesting unit at maximum knock intensity fuel-air ratio, with thecylinder height (dial indicator or digital counter reading) set tothe prescribed guide table value. The analog detonation meteris adjusted to produce an analog knockmeter reading of

42、50 forthese conditions.3.1.29 standard knock intensity, digital, nfor knock test-ing, that level of knock established when a primary referencefuel blend of specific octane number is used in the knocktesting unit at maximum knock intensity fuel-air ratio, with thecylinder height (dial indicator or di

43、gital counter reading) set tothe prescribed guide table value. The digital detonation meterwill display a peak to peak voltage of approximately 0.25 V forthese conditions.3.1.30 toluene standardization fuels, nfor knock testing,those volumetrically proportioned blends of two or more of thefollowing:

44、 reference fuel grade toluene, n-heptane, and isooc-tane that have prescribed rating tolerances for O.N.ARVdeter-mined by round-robin testing under reproducibility conditions.3.2 Abbreviations:3.2.1 ARVaccepted reference value3.2.2 CFRCooperative Fuel Research3.2.3 C.R.compression ratio3.2.4 IATinta

45、ke air temperature3.2.5 K.I.knock intensity3.2.6 MIXTmixture temperature3.2.7 OAoctane analyzer3.2.8 O.N.octane number3.2.9 PRFprimary reference fuel3.2.10 RTDresistance thermometer device (TerminologyE344), platinum type3.2.11 TSFtoluene standardization fuel4. Summary of Test Method4.1 The Motor O.

46、N. of a spark-ignition engine fuel isdetermined using a standard test engine and operating condi-tions to compare its knock characteristic with those of PRFblends of known O.N. Compression ratio and fuel-air ratio areadjusted to produce standard K.I. for the sample fuel, asmeasured by a specific ele

47、ctronic detonation measurementsystem. A standard K.I. guide table relates engine C.R. to O.N.level for this specific method. The fuel-air ratio for the samplefuel and each of the PRF blends is adjusted to maximize K.I.for each fuel.4.1.1 The fuel-air ratio for maximum K.I. may be obtained(1) by maki

48、ng incremental step changes in mixture strength,observing the equilibrium K.I. value for each step, and thenselecting the condition which maximizes the reading or (2)bypicking the maximum K.I. as the mixture strength is changedfrom either rich-to-lean or lean-to-rich at a constant rate.4.2 Bracketin

49、g ProceduresThe engine is calibrated tooperate at standard K.I. in accordance with the guide table. Thefuel-air ratio of the sample fuel is adjusted to maximize theK.I., and then the cylinder height is adjusted so that standardK.I. is achieved. Without changing cylinder height, two PRFsare selected such that, at their fuel-air ratio for maximum K.I.,one knocks harder (higher K.I.) and the other softer (lowerK.I.) than the sample fuel. A second set of K.I. measurementsfor sample fuel and reference fuels is required, and the samplefuel O.N

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