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本文(ASTM D6277-2007(2017) 1875 Standard Test Method for Determination of Benzene in Spark-Ignition Engine Fuels Using Mid Infrared Spectroscopy《使用中红外光谱仪测定火花点火发动机燃料中苯的标准试验方法》.pdf)为本站会员(lawfemale396)主动上传,麦多课文库仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对上载内容本身不做任何修改或编辑。 若此文所含内容侵犯了您的版权或隐私,请立即通知麦多课文库(发送邮件至master@mydoc123.com或直接QQ联系客服),我们立即给予删除!

ASTM D6277-2007(2017) 1875 Standard Test Method for Determination of Benzene in Spark-Ignition Engine Fuels Using Mid Infrared Spectroscopy《使用中红外光谱仪测定火花点火发动机燃料中苯的标准试验方法》.pdf

1、Designation: D6277 07 (Reapproved 2017)Standard Test Method forDetermination of Benzene in Spark-Ignition Engine FuelsUsing Mid Infrared Spectroscopy1This standard is issued under the fixed designation D6277; the number immediately following the designation indicates the year oforiginal adoption or,

2、 in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. Asuperscript epsilon () indicates an editorial change since the last revision or reapproval.1. Scope1.1 This test method covers the determination of the per-centage of benzene in spark

3、-ignition engine fuels. It is appli-cable to concentrations from 0.1 to 5 volume %.1.2 The values stated in SI units are to be regarded asstandard. No other units of measurement are included in thisstandard.1.3 This standard does not purport to address all of thesafety concerns, if any, associated w

4、ith its use. It is theresponsibility of the user of this standard to establish appro-priate safety, health, and environmental practices and deter-mine the applicability of regulatory limitations prior to use.1.4 This international standard was developed in accor-dance with internationally recognized

5、 principles on standard-ization established in the Decision on Principles for theDevelopment of International Standards, Guides and Recom-mendations issued by the World Trade Organization TechnicalBarriers to Trade (TBT) Committee.2. Referenced Documents2.1 ASTM Standards:2D1298 Test Method for Dens

6、ity, Relative Density, or APIGravity of Crude Petroleum and Liquid Petroleum Prod-ucts by Hydrometer MethodD4052 Test Method for Density, Relative Density, and APIGravity of Liquids by Digital Density MeterD4057 Practice for Manual Sampling of Petroleum andPetroleum ProductsD4177 Practice for Automa

7、tic Sampling of Petroleum andPetroleum ProductsD4307 Practice for Preparation of Liquid Blends for Use asAnalytical StandardsD5769 Test Method for Determination of Benzene, Toluene,and Total Aromatics in Finished Gasolines by GasChromatography/Mass SpectrometryD5842 Practice for Sampling and Handlin

8、g of Fuels forVolatility MeasurementD5854 Practice for Mixing and Handling of Liquid Samplesof Petroleum and Petroleum ProductsE168 Practices for General Techniques of Infrared Quanti-tative AnalysisE1655 Practices for Infrared Multivariate QuantitativeAnalysisE2056 Practice for Qualifying Spectrome

9、ters and Spectro-photometers for Use in Multivariate Analyses, CalibratedUsing Surrogate Mixtures3. Terminology3.1 Definitions:3.1.1 multivariate calibrationa process for creating acalibration model in which multivariate mathematics is appliedto correlate the absorbances measured for a set of calibr

10、ationsamples to reference component concentrations or propertyvalues for the set of samples.3.1.1.1 DiscussionThe resultant multivariate calibrationmodel is applied to the analysis of spectra of unknown samplesto provide an estimate of the component concentration orproperty values for the unknown sa

11、mple.3.1.1.2 DiscussionIncluded in the multivariate calibrationalgorithms are Partial Least Squares, Multilinear Regression,and Classical Least Squares Peak Fitting.3.1.2 oxygenatean oxygen-containing organic compoundwhich may be used as a fuel or fuel supplement, for example,various alcohols and et

12、hers.4. Summary of Test Method4.1 Asample of spark-ignition engine fuel is introduced intoa liquid sample cell.Abeam of infrared light is imaged throughthe sample onto a detector, and the detector response isdetermined. Wavelengths of the spectrum, that correlate highlywith benzene or interferences,

13、 are selected for analysis usingselective bandpass filters or by mathematically selecting areasof the whole spectrum. A multivariate mathematical analysisconverts the detector response for the selected areas of thespectrum of an unknown to a concentration of benzene.1This test method is under the ju

14、risdiction of ASTM Committee D02 onPetroleum Products, Liquid Fuels, and Lubricants and is the direct responsibility ofSubcommittee D02.04.0F on Absorption Spectroscopic Methods.Current edition approved Oct. 1, 2017. Published November 2017. Originallyapproved in 1998. Last previous edition approved

15、 in 2012 as D627707 (2012).DOI: 10.1520/D6277-07R17.2For 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 Document Summary page onthe ASTM website.Copyright

16、 ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United StatesThis international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for theDevelopment of International

17、Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.15. Significance and Use5.1 Benzene is a compound that endangers health, and theconcentration is limited by environmental protection agenciesto produce a less toxic gasoline.5.2 T

18、his test method is fast, simple to run, and inexpensive.5.3 This test method is applicable for quality control in theproduction and distribution of spark-ignition engine fuels.6. Interferences6.1 The primary spectral interferences are toluene and othermonosubstituted aromatics. In addition, oxygenat

19、es can inter-fere with measurements made with filter apparatus. Properchoice of the apparatus, proper design of a calibration matrix,and proper utilization of multivariate calibration techniquescan minimize these interferences.7. Apparatus7.1 Mid-IR Spectrometric Analyzer (of one of the followingtyp

20、es):7.1.1 Filter-based Mid-IR Test ApparatusThe type ofapparatus suitable for use in this test method minimallyemployes an IR source, an infrared transmission cell or a liquidattenuated total internal reflection cell, wavelength discrimi-nating filters, a chopper wheel, a detector, an A-D converter,

21、 amicroprocessor, and a method to introduce the sample. Thefrequencies and bandwidths of the filters are specified in Table1.7.1.2 Fourier Transform Mid-IR SpectrometerThe type ofapparatus suitable for use in this test method employs an IRsource, an infrared transmission cell or a liquid attenuated

22、totalinternal reflection cell, a scanning interferometer, a detector, anA-D converter, a microprocessor, and a method to introducethe sample. The following performance specifications (throughthe ATR cell) must be met:scan range 4000 cm1to 600 cm1resolution 4 cm1S/N at 674 cm1300:1 RMSThe signal to n

23、oise level will be established by taking asingle beam spectrum using air or nitrogen as the reference anddeclaring that spectrum as the background. The backgroundsingle beam spectrum obtained can be the average of multipleFTIR scans, but the total collection time shall not exceed 60 s.If interferenc

24、e from water vapor or carbon dioxide is aproblem, the instrument shall be purged with dry air ornitrogen. A subsequent single beam spectrum shall be takenunder the same conditions and ratioed to the backgroundspectrum. The RMS noise of the ratioed spectra, the 100 %line, shall not exceed 0.3 % trans

25、mittance in the region from700 cm1to 664 cm1.7.2 Absorption CellThe absorption cell can be eithertransmission or attenuated total reflectance.7.2.1 Transmission Cells, shall have windows of potassiumbromide, zinc selenide, or other material having a significanttransmission from 712 cm1to 660 cm1. Th

26、e cell path lengthof the transmission cell shall be 0.025 mm 6 0.005 mm. Theuse of a wedged transmission cell with the same nominal pathlength is acceptable.7.2.2 Attenuated Total Reflectance (ATR) Cells, shall havethe following specifications:ATR element material ZnSebeam condensing optics conical,

27、 non-focussing opticsintegral to cell bodyelement configuration circular cross section withcoaxial conical endscone half angle 60element length 1.55 in.element diameter 0.125 in.angle of incidence atsample interface 53.8maximum range ofincidence angles 1.5standard absorbance(1428 cm1band of acetone)

28、 0.38 AU 0.02 AUmaterial of construction 316 stainless steelseals Chemraz or Kalraz o-rings8. Reagents and Materials (see Note 1)8.1 Standards for Calibration, Qualification, and QualityControl Check StandardsUse of chemicals of at least 99 %purity, where available, for quality control checks is req

29、uiredwhen preparing samples. (WarningThese materials areflammable and may be harmful if ingested or inhaled.)8.1.1 tert-Amyl methyl ether, TAME 994-05-8.8.1.2 Benzene 1076-43-3.8.1.3 tert-Butyl ethyl ether, ETBE 637-92-3.8.1.4 tert-Butyl methyl ether, MTBE 1634-04-4.8.1.5 1,3 Dimethylbenzene (m-xyle

30、ne).8.1.6 Ethanol 64-17-5.8.1.7 Ethylbenzene 100-41-4.8.1.8 3Ethyltoluene 620-14-4.8.1.9 Heavy aromatic/reformate petroleum stream (highboiling cut: IPB of 150 6 5 C and EPof 245 6 8 C) certifiedto contain less than 0.025 % benzene (an absorbance of lessthan 0.03 at 675 cm1using a 0.2 mm cell and a

31、baselinebetween approximately 680 cm1and 670 cm1) 64741-68-0.8.1.10 Hexane (an absorbance versus water of less than 0.1at 250 nm usinga1cmcell) 110-54-3.8.1.11 2,2,4-Trimethylpentane (isooctane) 540-84-1.8.1.12 Pentane (an absorbance versus water of less than 0.1at 250 nm usinga1cmcell) 109-66-0.8.1

32、.13 Propylbenzene 103-65-1.8.1.14 Toluene 108-88-3.8.1.15 1,3,5-Trimethylbenzene (mesitylene) 108-67-8.8.1.16 m-Xylene 108-38-3.NOTE 1Only some of the reagents are required in each calibration orqualification procedure.9. Sampling and Sample Handling9.1 General Requirements:TABLE 1 Specification for

33、 Filters Used in Filter-based Mid-IR TestCenter Wavenumber Bandwidth (in wavelength units)( 0.15 % of wavenumber) (full width at half height)673 cm-11%ofc729 cm-11%ofc769 cm-11%ofc1205 cm-11%ofc1054 cm-11%ofc1188 cm-11%ofc1117 cm-11%ofcD6277 07 (2017)29.1.1 The sensitivity of the measurement of benz

34、ene to theloss of benzene or other components through evaporation andthe resulting changes in composition is such that the utmostprecaution and the most meticulous care in the drawing andhandling of samples is required.9.1.2 Fuel samples to be analyzed by the test method shallbe sampled using proced

35、ures outlined in Practices D4057,D4177,orD5842, where appropriate. Do not use the “Sam-pling by Water Displacement.” With some alcohol containingsamples, the alcohol will dissolve in the water phase.9.1.3 Protect samples from excessive temperatures prior totesting. This can be accomplished by storag

36、e in an appropriateice bath or refrigerator at 0 C to 5 C.9.1.4 Do not test samples stored in leaky containers. Discardand obtain a new sample if leaks are detected.9.2 Sample Handling During Analysis:9.2.1 When analyzing samples by the mid infraredapparatus, the sample must be between a temperature

37、 of 15 Cto 38 C. Equilibrate all samples to the temperature of thelaboratory (15 C to 38 C) prior to analysis by this testmethod.9.2.2 After analysis, if the sample is to be saved, reseal thecontainer and store the sample in an ice bath or a refrigeratorat 0 C to 5 C.10. Calibration and Qualificatio

38、n of the Apparatus10.1 Before use, the instrument must be calibrated accord-ing to the procedure described in Annex A1. This calibrationcan be performed by the instrument manufacturer prior todelivery of the instrument to the end user. If, after maintenance,the instrument calibration is repeated, th

39、e qualification proce-dure must also be repeated.10.2 Before use, the instrument must be qualified accordingto the procedure described in AnnexA1. The qualification needonly be carried out when the instrument is initially put intooperation, recalibrated, or repaired.11. Quality Control Checks11.1 Co

40、nfirm the calibration of the instrument each day it isused by measuring the benzene concentration using the proce-dure outlined in Section 12 on at least one quality controlsample of known benzene content. The preparation of knownbenzene concentration is described in 11.1.1 and 11.1.2.11.1.1 Standar

41、d(s) of known benzene concentration shall bemade up by mass according to A1.1 and converted to volume% using the measured density as outlined in Section 13.Atleast one standard shall be made up at 1.2 (6 0.2) mass %benzene, that is, nominally 1.0 volume %.Additional standardsmay also be prepared and

42、 used for quality control checks.11.1.2 Standard(s) should be prepared in sufficient volumeto allow for a minimum of 30 quality control measurements tobe made on one batch of material. Package or store, or both,quality control samples to ensure that all analyses of qualitycontrol samples from a give

43、n lot are performed on essentiallyidentical material.11.2 If the benzene volume % value estimated for thequality control sample prepared at 1.2 mass % benzene differsfrom the known value by more than 0.12 volume %, then themeasurement system is out-of-control and cannot be used toestimate benzene co

44、ncentrations until the cause of the out-of-control behavior is identified and corrected.11.3 If correction of out-of-control behavior requires repairto the instrument or recalibration of the instrument, thequalification of instrument performance described in A1.3 shallbe performed before the system

45、is used to measure benzenecontent on samples.12. Procedure12.1 Equilibrate the samples to between 15 C and 38 Cbefore analysis.12.2 Clean the sample cell. If a separate baseline using theempty cell is required, and if residual fuel is in the sample cell,remove the fuel by flushing the cell and inlet

46、-outlet lines withenough pentane to ensure complete washing. Evaporate theresidual pentane with either dry air or nitrogen.12.3 If needed, obtain a baseline spectrum in the mannerestablished by the manufacturer of the equipment.12.4 Prior to the analysis of unknown test samples, establishthat the eq

47、uipment is running properly by collecting thespectrum of the quality control standard(s), by analyzing thespectrum with the calibration model, and by comparing theestimated benzene concentration to the known value for the QCstandard(s). Introduce enough standard to the cell to ensure thatthe cell is

48、 washed a minimum of three times with the standardsolution.12.5 Introduce the unknown fuel sample in the mannerestablished by the manufacturer. Introduce enough of the fuelsample to the cell to ensure the cell is washed a minimum ofthree times with the fuel.12.6 Obtain the spectral response of the f

49、uel sample.12.6.1 If a filter based mid IR instrument is used, acquire theabsorbance for the fuel sample at the wavelengths correspond-ing to the specified filters.12.6.2 If an FTIR is used, acquire the digitized spectral datafor the fuel sample over the frequency region from 4000 cm1to 600 cm1.12.7 Determine the benzene concentration (volume %) ac-cording to the appropriate calibration equation developed inAnnex A1.12.7.1 For filter based mid IR instruments, apply the cali-bration equation determined i

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