ASTM D4468-1985(2006) Standard Test Method for Total Sulfur in Gaseous Fuels by Hydrogenolysis and Rateometric Colorimetry《用还原法和比色法对气体燃料中总硫含量的试验方法》.pdf

上传人:priceawful190 文档编号:517140 上传时间:2018-12-02 格式:PDF 页数:5 大小:111.31KB
下载 相关 举报
ASTM D4468-1985(2006) Standard Test Method for Total Sulfur in Gaseous Fuels by Hydrogenolysis and Rateometric Colorimetry《用还原法和比色法对气体燃料中总硫含量的试验方法》.pdf_第1页
第1页 / 共5页
ASTM D4468-1985(2006) Standard Test Method for Total Sulfur in Gaseous Fuels by Hydrogenolysis and Rateometric Colorimetry《用还原法和比色法对气体燃料中总硫含量的试验方法》.pdf_第2页
第2页 / 共5页
ASTM D4468-1985(2006) Standard Test Method for Total Sulfur in Gaseous Fuels by Hydrogenolysis and Rateometric Colorimetry《用还原法和比色法对气体燃料中总硫含量的试验方法》.pdf_第3页
第3页 / 共5页
ASTM D4468-1985(2006) Standard Test Method for Total Sulfur in Gaseous Fuels by Hydrogenolysis and Rateometric Colorimetry《用还原法和比色法对气体燃料中总硫含量的试验方法》.pdf_第4页
第4页 / 共5页
ASTM D4468-1985(2006) Standard Test Method for Total Sulfur in Gaseous Fuels by Hydrogenolysis and Rateometric Colorimetry《用还原法和比色法对气体燃料中总硫含量的试验方法》.pdf_第5页
第5页 / 共5页
亲,该文档总共5页,全部预览完了,如果喜欢就下载吧!
资源描述

1、Designation: D 4468 85 (Reapproved 2006)Standard Test Method forTotal Sulfur in Gaseous Fuels by Hydrogenolysis andRateometric Colorimetry1This standard is issued under the fixed designation D 4468; the number immediately following the designation indicates the year oforiginal adoption or, in the ca

2、se 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.1. Scope1.1 This test method covers the determination of sulfurgaseous fuels in the range from 0.001

3、to 20 parts per million byvolume (ppm/v).1.2 This test method may be extended to higher concentra-tion by dilution.1.3 This standard may involve hazardous materials, opera-tions, and equipment. This standard does not purport toaddress all of the safety concerns associated with its use. It isthe resp

4、onsibility of the user of this standard to establishappropriate safety and health practices and determine theapplicability of regulatory limitations prior to use. Specificprecautionary statements are given in 6.7, 6.8, and 7.3.2. Referenced Documents2.1 ASTM Standards:2D 1193 Specification for Reage

5、nt WaterD 1914 Practice for Conversion Units and Factors Relatingto Sampling and Analysis of AtmospheresD 4045 Test Method for Sulfur in Petroleum Products byHydrogenolysis and Rateometric Colorimetry3. Summary of Test Method3.1 The sample is introduced at a constant rate into aflowing hydrogen stre

6、am in a hydrogenolysis apparatus. Thesample and hydrogen are pyrolyzed at a temperature of 1000Cor above, to convert sulfur compounds to hydrogen sulfide(H2S). Readout is by the rateometric detection of the colori-metric reaction of H2S with lead acetate. Units used are ppm/v,which is equivalent to

7、micromoles/mole.4. Significance and Use4.1 This test method can be used to determine specification,or regulatory compliance to requirements, for total sulfur ingaseous fuels. In gas processing plants, sulfur can be acontaminant and must be removed before gas is introduced intogas pipelines. In petro

8、chemical plants, sulfur is a poison formany catalysts and must be reduced to acceptable levels,usually in the range from 0.01 to 1 ppm/v. This test methodmay also be used as a quality-control tool for sulfur determi-nation in finished products, such as propane, butane, ethane,and ethylene.5. Apparat

9、us5.1 Pyrolysis FurnaceA furnace that can provide anadjustable temperature of 900 to 1300C in a quartz or ceramictube of 5 mm or larger tube (ID) is required for pyrolysis of thesample. (See Fig. 1.) The flow system is to be a fluorocarbonor other material inert to H2S and other sulfur compounds. (S

10、eeFig. 1.)5.2 Rateometric H2S ReadoutHydrogenolysis productscontain H2S in proportion to sulfur in the sample. The H2Sconcentration is determined by measuring rate of change ofreflectance of a tape impregnated with lead acetate caused bydarkening when lead sulfide is formed. Rateometric electron-ics

11、, adapted to provide first derivative output, allows sufficientsensitivity to measure to 0.001 ppm/v. (See Fig. 2.)5.3 RecorderA suitable chart recorder may be used for apermanent record of analysis.6. Reagents and Materials6.1 Purity of ChemicalsReagent grade unless specifiedotherwise.6.2 Purity of

12、 WaterUnless otherwise indicated, referenceto water shall be understood to mean Type II, reagent gradewater, conforming to Specification D 1193.6.3 Sensing TapeLead acetate impregnated analyticalquality filter paper shall be used.6.4 Acetic Acid (5 %)Mix 1 part by volume reagent gradeglacial acetic

13、acid with 19 parts water to prepare 5 % aceticacid solution.1This test method is under the jurisdiction ofASTM Committee D03 on GaseousFuels and is the direct responsibility of Subcommittee D03.05 on Determination ofSpecial Constituents of Gaseous Fuels.Current edition approved June 1, 2006. Publish

14、ed August 2006. Originallyapproved in 1985. Last previous edition approved in 2000 as D446885 (2000).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 D

15、ocument Summary page onthe ASTM website.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.FIG. 1 Hydrogenolysis Flow DiagramFIG. 2 Photorateometry H2S ReadoutD 4468 85 (2006)26.5 Gastight SyringeA gastight 0.1- and 0.5-mL syringefor pr

16、eparing calibration standard. Volumetric measurementaccuracy of the syringe shall be 1 % or better.6.6 Piston CylinderUse a 10-Lacrylic cylinder with a freemoving piston and silicone rubber “O” ring lubricated with afree-flowing silicone lubricant. This cylinder is used to prepareppm/v calibration s

17、amples volumetrically.6.7 Carbonyl Sulfide (COS)Alecture bottle of COS, 99 %purity, with a needle valve connected to the lecture bottleoutlet. Connect 2 ft of tygon tubing to allow insertion of ahypodermic syringe to withdraw pure COS while tubing ispurged from the lecture bottle. Other sulfur compo

18、unds can beused with adequate odor control. If the sulfur compound hastwo sulfur atoms per molecule, reduce the volume by one half.(WarningWork with COS should be done in a well-ventilated area, or under a fume hood.)6.8 Hydrogen GasUse sulfur-free hydrogen of laboratorygrade. (WarningHydrogen has w

19、ide explosive limits whenmixed with air. See 1.3 regarding precautions.)6.9 Carrier Gas for Calibration StandardsUse sulfur-freelaboratory grade bottled gas of the same type or similar densityas the gas to be analyzed or calibrate the flowmeter to establishcorrect flow setting for an available carri

20、er gas. Test, as in 7.5,adding the carrier gas flow to the hydrogen flow.6.10 Purge GasSulfur-free purge gas, nitrogen, CO2,orother inert gas. Commercial grade cylinder gas is satisfactory.7. Preparation of Apparatus7.1 Turn on the furnace and allow temperature to stabilize at1000C. If thiophenic su

21、lfur could be present, use 1300Ctemperature setting.NOTE 1Reduced operating temperature extends furnace life.Thiophenic compound conversion increases from about 60 % at 1000C to100 % at 1300C.7.2 Connect all flow tubing between components and fillhumidifier inside the cabinet to 30 mL with a 5 % by

22、volumeacetic acid solution. Purge all flow systems with inert gas thenclose valve. Check all connections for leaks with soap solutionand repair any leaks. Connect hydrogen and set flow at 200mL/min and allow temperature to stabilize. Sample flow mustbe13 or less of the H2flow. Total flow can be up t

23、o 500mL/min, except when the sample has thiophenic compoundsthat require 200 mL/min of H2flow for conversion. Make finaltemperature adjustment to 1000 6 15C or a minimum 1300Cif the sample contains thiophenic sulfur compounds.7.3 Install sensing tape and turn H2S readout analyzer on.Use adequate saf

24、ety precautions in handling lead acetate tape.7.4 Adjust the zero of the analyzer indicator meter (andrecorder if used) to desired position with no flow. This shouldbe performed with span at maximum.7.5 Test hydrogen purity by turning on hydrogen flow andnoting any change in zero position after 5 mi

25、n. If the readingis upscale from the zero set point by greater than 4 %, then thehydrogen source should be suspect as not being sulfur free andshould be changed.7.6 If the change in the recorder zero is less than 4 %, thenreset the recorder zero to the desired position while thehydrogen is flowing.

26、This should be performed with the span atmaximum.8. Standardization8.1 With hydrogen flow at 200 mL/min, advance tape to anunexposed area and note baseline.8.2 Prepare a reference standard as described in Section 9.Connect the reference sample to the pump and the pump to theanalyzer. When a stable r

27、eading is obtained, record this value(C in 11.1). Advance the tape and introduce reference samplegas flow with a sulfur concentration near that expected in theunknown (see 9.2).Adjust the sample flow to 65 mL/min.Afterabout 4 min, adjust the recorder span such that the recordingindicates to desired

28、response. The response is linear. A calibra-tion standard, such as 0.8 ppm/v, can be prepared and therecorder span adjusted to 80 % of full scale so that full scale is1 ppm/v and any lower value can be read directly on a scaledivided into 100 parts.9. Calibration and Standardization9.1 Reference Sta

29、ndardReference standards are preparedby volumetric measurement at the time the reference materialis to be used. (See Fig. 3.) This minimizes deterioration of thesample. Normally this reference standard will deteriorate lessthan 1 % in 15 min. Small volumes of pure sulfur compoundare measured using a

30、 gastight syringe. Dilution gas is measuredusing a 10-L graduated cylinder having a movable piston.When ppm/v samples are prepared for immediate use byvolumetric measurement, no correction for temperature andpressure changes are needed in a laboratory environment.Temperature and pressure correction

31、will be needed if conver-sion to weight units is desired.9.2 PreparationTo prepare 1-ppm/v sample, add 10 L(0.01 mL) of COS to make a 10-L sample carrier mixture.Inject COS through the septum on the 10-L acrylic cylinder asit is filled with carrier gas. Swirling of the carrier providesmixing. To cal

32、culate millilitres of sulfur compound required ina 10-L mixture, use the following equation:p 5 ppm/v 3 1022(1)where: p = millilitres of sulfur compound. (This applies togas-phase material only.)9.2.1 Prepare a reference standard of a concentrationslightly higher than may be anticipated in the sampl

33、e. Purge the10-L cylinder with sulfur-free carrier gas. Connect the tygontubing to the COS lecture bottle and insert end into a beaker ofwater. Open valve while observing bubbles to adjust tubingpurge flow rate. Insert gastight hypodermic needle into the wallof the tygon tubing. Raise and lower plun

34、ger slowly severaltimes to purge the syringe. Start filling the 10-L cylinder withcarrier gas and inject desired quantity of sulfur compoundthrough the septum. Withdraw the syringe quickly after injec-tion to prevent residual gas in the needle tip from diffusing intothe flowing gas. Turn off the car

35、rier gas when 10 L areobtained. The reference standard is now ready for use incalibrating the analyzer. For samples less than 1 ppm/v,secondary volumetric dilution may be used. As an example, toD 4468 85 (2006)3get a 0.2-ppm/v sample, exhaust the cylinder filled with 10 Lof 1-ppm/v gas to 2 L, then

36、fill again to 10 L with diluent gas.10. Sample Measurement Procedure10.1 Connect the sample to the analyzer and adjust the flowrate to approximately 65 mL/min. This flow must be main-tained constant during testing.After the response is observed tobe stable, record the reading A (see 11.1). The refer

37、encestandard described in 9.2 must be prepared and run to establishthe analyzer span frequently enough to allow compensation forchanges in temperature and atmospheric pressure. Whensamples are within 25 % of the reference standard, repeatingthe entire calibration procedure twice a day is normallysuf

38、ficient for this purpose.11. Calculation11.1 Calculate concentration of an unknown sample inppm/v as follows:X 5 A 2 B!D/C 2 B!(2)where:A = scale reading for the unknown sample at ambienttemperature and pressure,B = blank scale reading,C = scale reading obtained from the prepared referencestandard a

39、t ambient temperature and pressure,D = fraction of sulfur compound in reference standard inunits of ppm/v, andX = fraction of sulfur compound in the unknown sample inppm/v.11.2 Conversion from volume fraction to mass concentra-tion W of sulfur compound in milligrams per cubic metre at25C and 760 mm

40、Hg (101.3 kPa) is obtained by multiplyingppm by molecular weight and dividing by 24.450 as shown inPractice D 1914. For carbonyl sulfide:W 5 2.46X (3)where:W = mass concentration, mg/m3;X = fraction of sulfur compound by volume in the un-known sample, ppm by volume; andM = molecular weight.FIG. 3 Fl

41、ow System for Gas Sample and Calibration ReferenceD 4468 85 (2006)4Make appropriate correction for other temperatures andpressures.12. Precision12.1 The information in this section is derived from datacollected by ASTM Committees D03 and D22, using a similartype analyzer to measure H2S.12.1.1 Repeat

42、abilityAt the 95 % confidence level, thedifference as a result of test error obtained between two resultsfrom the same sample at the same laboratory should beconsidered suspect if greater than as follows:RepeatabilityFull-Scale Range,ppm/vPiston Cylinder Reference(Manual) Deviation,(ppm/v)PPM Genera

43、torReference (Automatic)Deviation, ppm/v1.0 0.014 0.0170.1 0.002 0.00212.1.2 ReproducibilityAt the 95 % confidence level, thedifference caused by test error obtained between two resultsfrom the same sample from different laboratories should beconsidered suspect if greater than as follows:Reproducibi

44、lityFull-Scale Range,ppm/vPiston Cylinder Reference(Manual) Deviation,ppm/vPPM GeneratorReference (Automatic)Deviation, ppm/v1.0 0.050 0.1410.1 0.006 0.00812.1.3 For sulfur compounds other than H2S, the repeatabil-ity and reproducibility are as follows : (See Test MethodD 4045.)Full-Scale Reading,pp

45、m/vRepeatability,ppm/vReproducibility,ppm/v1.0 0.16 0.260.1 0.051 0.08213. Keywords13.1 gaseous fuels; sulfurASTM International takes no position respecting the validity of any patent rights asserted in connection with any item mentionedin this standard. Users of this standard are expressly advised

46、that determination of the validity of any such patent rights, and the riskof infringement of such rights, are entirely their own responsibility.This standard is subject to revision at any time by the responsible technical committee and must be reviewed every five years andif not revised, either reap

47、proved or withdrawn. Your comments are invited either for revision of this standard or for additional standardsand should be addressed to ASTM International Headquarters. Your comments will receive careful consideration at a meeting of theresponsible technical committee, which you may attend. If you

48、 feel that your comments have not received a fair hearing you shouldmake your views known to the ASTM Committee on Standards, at the address shown below.This standard is copyrighted by ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959,United States. Individual reprints (single or multiple copies) of this standard may be obtained by contacting ASTM at the aboveaddress or at 610-832-9585 (phone), 610-832-9555 (fax), or serviceastm.org (e-mail); or through the ASTM website(www.astm.org).D 4468 85 (2006)5

展开阅读全文
相关资源
猜你喜欢
相关搜索

当前位置:首页 > 标准规范 > 国际标准 > ASTM

copyright@ 2008-2019 麦多课文库(www.mydoc123.com)网站版权所有
备案/许可证编号:苏ICP备17064731号-1