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本文(ASTM D6062-2007(2012) 3750 Standard Guide for Personal Samplers of Health-Related Aerosol Fractions《与健康有关的气溶胶成份个人采样器指南》.pdf)为本站会员(王申宇)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 D6062-2007(2012) 3750 Standard Guide for Personal Samplers of Health-Related Aerosol Fractions《与健康有关的气溶胶成份个人采样器指南》.pdf

1、Designation: D6062 07 (Reapproved 2012)Standard Guide forPersonal Samplers of Health-Related Aerosol Fractions1This standard is issued under the fixed designation D6062; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, the year of l

2、ast 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 guide defines conventions for personal samplers ofspecific particle-size-dependent fractions of any given non-fibr

3、ous airborne aerosol. Such samplers are used for assessinghealth effects and in the setting of and testing for compliancewith permissible exposure limits in the workplace and ambientenvironment. The conventions have been adopted by theInternational Standards Organization (Technical Report ISOTR 7708

4、), the Comit Europen de Normalisation (CENStandard EN 481), and the American Conference of Govern-mental Industrial Hygienists (ACGIH) (1).2The conventionswere developed (2) in part from health-effects studies reviewed(3) by the ACGIH and in part as a compromise betweendefinitions proposed by the AC

5、GIH (3) and by the BritishMedical Research Council (BMRC) (4). Conventions are givenhere for inhalable, thoracic, and respirable fractions.1.2 This guide is complementary to Test Method D4532,which describes the performance of a particular instrument, the10-mm cyclone, and operational procedures for

6、 use. Theprocedures, specifically the optimal flow rate, are still validalthough the estimated accuracy differs somewhat from usewith previous aerosol fraction definitions. Details on thisinstrument and also the Higgins-Dewell cyclone have recentlybeen published (5-7).1.3 Limitations:1.3.1 The defin

7、itions given here were adopted by the agen-cies listed in 1.1 in part on the basis of expected health effectsof the different size fractions, but in part allowing for availablesampling equipment. The original adoption by CEN was, infact, for the eventual setting of common standards by the ECcountrie

8、s while permitting the use of a variety of instrumenta-tion. Deviations of the sampling conventions from health-related effects are as follows:1.3.1.1 The inhalable fraction actually depends on the spe-cific air speed and direction, on the breathing rate, and onwhether breathing is by nose or mouth.

9、 The values given in theinhalable convention are for representative values of breathingrate and represent averages over all wind directions.1.3.1.2 The respirable and thoracic fractions vary fromindividual to individual and with the breathing pattern. Theconventions are approximations to the average

10、 case.1.3.1.3 Each convention applies strictly to a fraction pen-etrating to a region, rather than depositing. Therefore, samplescollected according to the conventions may only approximatecorrelations with biological effects. For example, the respirableconvention overestimates the fraction of very s

11、mall particlesdeposited in the alveolar region of the respiratory systembecause some of the particles are actually exhaled withoutbeing deposited (8). In many workplaces, these very smallparticles contribute insignificantly to the sampled mass. Fur-thermore, the large variability between individuals

12、 and thedetails of clearance may be as important as this type of effect.1.3.1.4 The thoracic convention applies to mouth breathing,for which aerosol collection is greater than during nosebreathing.1.4 The values stated in SI units are to be regarded as thestandard. The values given in parentheses ar

13、e for informationonly.1.5 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 practices and determine the applica-bility of regulatory limitations prior

14、to use.2. Referenced Documents2.1 ASTM Standards:3D1356 Terminology Relating to Sampling and Analysis ofAtmospheresD4532 Test Method for Respirable Dust in WorkplaceAtmospheres Using Cyclone Samplers2.2 International Standards:ISO TR 7708 Technical Report on Air QualityParticleSize Fraction Definiti

15、ons for Health-Related Sampling,Brussels, 19934CEN EN 481 Standard on Workplace Atmospheres. Size1This guide is under the jurisdiction of ASTM Committee D22 on Air Qualityand is the direct responsibility of Subcommittee D22.04 on Workplace Air Quality.Current edition approved April 1, 2012. Publishe

16、d July 2012. Originallyapproved in 1996. Last previous edition approved in 2007 as D6062 - 07. DOI:10.1520/D6062-07R12.2The boldface numbers in parentheses refer to a list of references at the end ofthis standard.3For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Cu

17、stomer Service at serviceastm.org. For Annual Book of ASTMStandards volume information, refer to the standards Document Summary page onthe ASTM website.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.Fraction Definitions for the Meas

18、urement of AirborneParticles in the Workplace, Brussels, 199353. Terminology3.1 Many terms used in this guide are defined in Terminol-ogy D1356.3.2 Definitions of Terms Specific to This Standard:3.2.1 aerodynamic diameter, D, (m)the diameter of asphere of density of 103kg/m3with the same stopping ti

19、me asa particle of interest.3.2.2 inhalable convention, EIthe target specification forsampling instruments when the inhalable fraction is the frac-tion of interest. Specifically, EIis taken (Technical Report ISOTR 7708, CEN Standard EN 481, and the ACGIH thresholdlimit values (1) as follows:EI5 0.50

20、 1 1 exp20.06 D!, D , 100 m (1)defined in terms of aerodynamic diameter, D.3.2.2.1 DiscussionThe inhalable convention EIis illus-trated in Fig. 1. Note that EI 0.50 (50 %) at large D.Eq1approximates the inhalable fraction when averaged over allwind directions for windspeeds v 4 m/s. At higher windsp

21、eeds, the following convention has been tentatively sug-gested as follows (9):EI5 0.50 1 1 exp20.06 D! 1 1025v2.75exp0.055 D,4 m/s , v , 9 m/s(2)3.2.3 inhalable fractionthe total airborne particle massfraction inhaled through the nose and mouth, that is, whichenters the respiratory system.3.2.4 resp

22、irable convention, ERthe target sampling curvefor instruments approximating the respirable fraction. ERisdefined (Technical Report ISO TR 7708, CEN Standard EN481, and the present ACGIH Threshold Limit Values (1)interms of the cumulative normal function (10) F as follows:ER5 EI F1nDR/D/sR# (3)where

23、the indicated constants are DR= 4.25 m andsR= ln1.5. The cumulative normal function F is easilyapproximated using the algorithm given in Appendix X1.3.2.4.1 DiscussionFor protecting the sick or infirm orchildren, a quantity DR= 2.5 m has been suggested (TechnicalReport ISO TR 7708). This accounts fo

24、r the fact that inchildren and in adults with certain chest diseases, the tracheo-bronchial region is more effective at collecting particles ofsmall aerodynamic diameter than it is in healthy adults. Therespirable convention ERis illustrated in Fig. 1. Note that 50 %of total airborne particles with

25、D = 4.0 m are in the respirablefraction.3.2.5 respirable fractionthe mass fraction of total air-borne particles penetrating to the alveolar region of therespiratory system.3.2.6 sampling conventiona target specification that ap-proximates to a specific health-related fraction of aerosol ofgiven aero

26、dynamic diameter. A sampling convention is speci-fied in terms of the sampling efficiency E, the fraction ofparticles at given aerodynamic diameter collected by an idealinstrument.3.2.7 thoracic convention, ETthe target sampling curvefor instruments approximating the thoracic fraction. ETisdefined (

27、Technical Report ISO TR 7708, CEN Standard EN481, and the present ACGIH Threshold Limit Values (1)interms of the cumulative normal function (10) F as:ET5 EI F1nDT/D/sT# (4)where the indicated constant parameters are DT= 11.64 mand sT= ln1.5.3.2.7.1 DiscussionThe thoracic convention ETis illus-trated

28、 in Fig. 1. Note that 50 % of total airborne particles withD = 10 m are in the thoracic fraction.3.2.8 thoracic fractionthe mass fraction of total airborneparticles penetrating beyond the larynx.3.3 Abbreviations:Symbols and Abbreviations:3.3.1 D (m)aerosol aerodynamic diameter.3.3.2 DR(m)respirable

29、 sampling convention parameterequal to 4.25 m in the case of healthy adults, or 2.5 m for thesick or infirm or children.3.3.3 DT(m)thoracic sampling convention parameterequal to 11.64 m.3.3.4 Esampling convention in general.3.3.5 EIinhalable sampling convention.3.3.6 ERrespirable sampling convention

30、.3.3.7 ETthoracic sampling convention.3.3.8 v (m/s)wind speed.3.3.9 sRrespirable sampling convention parameter equalto ln1.5.3.3.10 sTthoracic sampling convention parameter equalto ln1.5.3.3.11 Fxcumulative normal function defined, givenargument x.4. Significance and Use4.1 The convention to be used

31、 is not always straightforward,but generally depends on what part of the respiratory system isaffected by the aerosol particles. For example, if an aerosol (forexample, silica) is expected to be hazardous mainly in thealveolar regions of the respiratory system, then the respirableconvention applies.

32、 On the other hand, if an aerosol isextremely soluble (for example, KCN), then the inhalableconvention should be used for monitoring or setting exposurelimit standards. The conventions are often applied for approxi-mating mass fractions, but they may also be used in theevaluation of total surface ar

33、ea or the number of particles in thecollected material.4.2 The conventions have now been adopted by the Inter-national Standards Organization (Technical Report ISO TR7708), the Comit Europen de Normalisation (CEN StandardEN 481), and the American Conference of GovernmentalIndustrial Hygienists (ACGI

34、H) (1). The definition of respirableaerosol is the basis for recommended exposure levels (REL) ofrespirable coal mine dust as promulgated by NIOSH (Criteriafor a Recommended Standard, Occupational Exposure toRespirable Coal Mine Dust). The respirable aerosol definition4Available from International O

35、rganization for Standardization, Caisse Postale56, CH-1211, Geneva 20, Switzerland.5Available from CEN Central Secretariat: rue de Stassart 36, B-1050 Brussels,Belgium.D6062 07 (2012)2also forms the basis of the NIOSH sampling method forrespirable particulates not otherwise regulated (NIOSH Manualof

36、 Analytical Methods).4.3 The conventions constitute a part of the performancecharacteristics required of aerosol samplers for collectingaerosol according to the relevant health effects. This guidetherefore does not specify particular samplers for measuringthe aerosol fractions defined here. Detailed

37、 guidelines forevaluating any given sampler relative to the conventions areunder preparation. Several advantages over instrument speci-fication can be attributed to the adoption of these performance-associated conventions:4.3.1 The conventions have a recognized tie to healtheffects.4.3.2 Performance

38、 criteria permit instrument designers toseek practical sampler improvements.4.3.3 Performance criteria promote continued experimentaltesting of the samplers in use with the result that the significantvariables (such as wind speed, particle charge, and so forth)affecting sampler operation become unde

39、rstood.5. Precision and Bias5.1 Precision and bias are detailed in specific test methods(for example, Test Method D4532). Furthermore, how thesequantities are to be measured will be presented in a perfor-mance evaluation protocol to appear as a separate standard.Nevertheless, general comments are in

40、 order.5.1.1 PrecisionIn the sampling of aerosol, several com-ponents of precision have been found significant (5). Theseinclude inter-sampler variability, caused by physical variationsin the samplers; intra-sampler variability, from inaccuracy inthe setting and maintenance of required airflow; and

41、analyticalerror, for example, in the weighing of filters.5.1.2 BiasAs no real sampler follows the aerosol fractionconventions exactly, bias always exists between true andconventional (ideal) samplers. This bias depends on the par-ticle size distribution of the aerosol sampled. The worst-casesituatio

42、n is in the sampling of monodisperse aerosol. However,in most workplaces, aerosol is present in a broad distribution ofsizes. The cancellation of positive and negative components ofbias at different particle sizes reduces the overall bias in thiscase.6. Keywords6.1 aerosol; conventions; deposition;

43、fractions; inhalable;particle; particulates; penetration; respirable; sampling effi-ciency; size-selective; thoracicFIG. 1 Inhalable, Thoracic, and Respirable Conventions Relative to Total Airborne ParticlesD6062 07 (2012)3APPENDIX(Nonmandatory Information)X1. ALGORITHM FOR CUMULATIVE NORMAL FUNCTIO

44、NX1.1 The cumulative normal function Fx is easily ap-proximated on a calculator or small computer using thefollowing algorithm (10):Fx 5 1 2 Zx a1t 1 a2t21 a3t3! (X1.1)where t is given in terms of x as follows:t 5 1/1 1 px!, and (X1.2)where the function Zx is defined as follows:Zx 1=2pexp2x2/2, and

45、(X1.3)where the constants p, a1, a2, and a3are given as follows:a1, a2, a3! 5 0.4361836, 20.1201676, 0.937298! (X1.4)p 5 0.33267 (X1.5)REFERENCES(1) ACGIH: 19941995 Threshold Limit Values, American Conferenceof Governmental Industrial Hygienists, updated annually.(2) Soderholm, S. C., “Proposed Inte

46、rnational Conventions for ParticleSize-Selective Sampling,” Annals Occupational Hygiene, Vol 33,1989, pp. 301320; Vol 35, pp. 357358.(3) ACGIG, “Particle Size-Selective Sampling in the Workplace,” An-nals of the American Conference of Government Industrial Hygienists,Vol II, 1984, pp. 21100.(4) Brit

47、ish Medical Research Council, “Recommendations of the MRCPanels Relating to Selective Sampling,” Inhaled Particles andVapours, Pergamon Press, Oxford, 1961.(5) Bartley, D. L., Chen, C. C., Song, R., and Fischbach, T. J.,“ RespirableAerosol Sampler Performance Testing,” American Industrial HygieneAss

48、oc. Journal, Vol 55, 1994, pp. 10361046.(6) Maynard, A., “Respirable Dust Sampler Characterisation: EfficiencyCurve Reproducibility,” Proceedings of the European Aerosol Con-ference, Journal of Aerosol Science, Vol 24, 1993, pp. S457S458.(7) Lidn, G., and Kenny, L. C., “Organization of the Performan

49、ce ofExisting Respirable Dust Samplers,” Applied Occupational Environ-mental Hygiene, Vol 8, 1993, pp. 386391.(8) Heyder, J., Gebhart, J., Rudolph, G., Schiller, C. F., and Stahlhofen,W., “Deposition of Particles in the Human Respiratory Tract in theSize Range 0.00515 m,” Journal of Aerosol Science, Vol 17, 1986,pp. 811825; also, Erratum, Journal of Aerosol Science, Vol 18, p.353.(9) Vincent, J. H., Mark, D., Armbruster, L., and Ogden, T. L., “AerosolInhalability at Higher Windspeeds,

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