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本文(ANSI ASTM F1977-2004 Standard Test Method for Determining Initial Fractional Filtration Efficiency of a Vacuum Cleaner System《测定真空吸尘器系统初始部分过滤效率的试验方法》.pdf)为本站会员(terrorscript155)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!

ANSI ASTM F1977-2004 Standard Test Method for Determining Initial Fractional Filtration Efficiency of a Vacuum Cleaner System《测定真空吸尘器系统初始部分过滤效率的试验方法》.pdf

1、Designation: F1977 04 (Reapproved 2017) An American National StandardStandard Test Method forDetermining Initial, Fractional, Filtration Efficiency of aVacuum Cleaner System1This standard is issued under the fixed designation F1977; the number immediately following the designation indicates the year

2、 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 () indicates an editorial change since the last revision or reapproval.1. Scope1.1 This test method may be used to determine the initial,fr

3、actional, filtration efficiency of household and commercialcanister (tank-type), stick, hand-held, upright, and utilityvacuum cleaner systems.1.1.1 Water-filtration vacuum cleaners which do not utilizea replaceable dry media filter located between the water-basedfilter and cleaning air exhaust are n

4、ot included in this testmethod. It has been determined that the exhaust of thesevacuum cleaners is not compatible with the specified discreteparticle counter (DPC) procedure.1.2 The initial, fractional, filtration efficiencies of the entirevacuum cleaner system, at six discrete particle sizes (0.3,

5、0.5,0.7, 1.0, 2.0, and 3 m), is derived by counting upstreamchallenge particles and the constituent of downstream particleswhile the vacuum cleaner system is being operated in astationary test condition.1.3 The vacuum cleaner system is tested at the nozzle withthe normal airflow rate produced by res

6、tricting the inlet to thenozzle adapter with the 114-in. orifice.1.4 The vacuum cleaner system is tested with a new filter(s)installed, and with no preliminary dust loading. The fractionalefficiencies determined by this test method shall be consideredinitial system filtration efficiencies. The filte

7、rs are not changedbetween test runs on the same cleaner.1.5 Neutralized potassium chloride (KCl) is used as thechallenge media in this test method.1.6 One or two particle counters may be used to satisfy therequirements of this test method. If using one counter, flowcontrol is required to switch betw

8、een sampling the upstreamand downstream air sampling probes.1.7 To efficiently utilize this test method, automated testequipment and computer automation is recommended.1.8 Different sampling parameters, flow rates, and so forth,for the specific applications of the equipment and test proce-dure may p

9、rovide equivalent results. It is beyond the scope ofthis test method to define those various possibilities.1.9 This test method is limited to the test apparatus, or itsequivalent, as described in this document.1.10 This test method is not intended or designed to provideany measure of the health effe

10、cts or medical aspects of vacuumcleaning.1.11 This test method is not intended or designed todetermine the integrity of HEPA filtration assemblies used invacuum cleaner systems employed in nuclear and defensefacilities.1.12 The inch-pound system of units is used in this testmethod, except for the co

11、mmon usage of the micrometer, m,for the description of particle size which is a SI unit.1.13 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 practice

12、s and determine the applica-bility of regulatory limitations prior to use.2. Referenced Documents2.1 ASTM Standards:2D1193 Specification for Reagent WaterD1356 Terminology Relating to Sampling and Analysis ofAtmospheresD3154 Test Method for Average Velocity in a Duct (PitotTube Method)F50 Practice f

13、or Continuous Sizing and Counting of Air-borne Particles in Dust-Controlled Areas and CleanRooms Using Instruments Capable of Detecting SingleSub-Micrometre and Larger ParticlesF395 Terminology Relating to Vacuum CleanersF558 Test Method for Measuring Air Performance Charac-teristics of Vacuum Clean

14、ers1This test method is under the jurisdiction ofASTM Committee F11 on VacuumCleaners and is the direct responsibility of Subcommittee F11.23 on Filtration.Current edition approved March 1, 2017. Published March 2017. Originallyapproved in 1999. Last previous edition approved in 2010 as F1977 04 (20

15、10).DOI: 10.1520/F1977-04R17.2For 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 ASTM International, 10

16、0 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 Standards, Guides and R

17、ecommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.12.2 Other Documents:IES Recommended Practice CC021.1 Testing HEPA andULPA Filter Media3IES Recommended Practice CC001.3 HEPA and ULPAFilters3ISO Guide 25 General Requirements for the Competence ofCalib

18、ration and Testing Laboratories4EN 1822 High Efficiency Air Filters (HEPA and ULPA)3. Terminology3.1 Definitions of Terms Specific to This Standard:3.1.1 challenge, naerosolized media introduced upstreamof the test unit and used to determine the filtration character-istics of the test unit.3.1.1.1 D

19、iscussionAlso known as test aerosol. The term“contaminant” shall not be used to describe the media oraerosol used to challenge the filtration system in this testmethod. The term “contaminant” is defined in TerminologyD1356 and does not meet the needs of this test method.3.1.2 chamber airflow, nthe s

20、um of all airflows measuredat a point near the downstream probe.3.1.3 filter, nthe entity consisting of the converted filtermedia and other items required to be employed in a vacuumcleaner for the purpose of arresting and collecting particulatematter from the dirt-laden air stream; sometimes referre

21、d to asa filter element, filter assembly, cartridge, or bag.3.1.4 normal airflow, nthat airflow occurring at the sys-tems nozzle due to the 114-in. orifice restriction at the inlet tothe nozzle adapter.3.1.5 nozzle adaptor, na plenum chamber, fabricated tomount to the inlet nozzle of the test unit i

22、n a sealable mannerand shown in Fig. 1.3.1.5.1 DiscussionConstruction specifications are dis-cussed in the Apparatus section.3.1.6 particle count, nthe numeric sum of particles percubic foot over the specified sample time.3.1.6.1 DiscussionThroughout this test method, the unitsof measure for this te

23、rm, generally, do not accompany the term“particle count” and are assumed to be understood by thereader.3.1.7 primary motor(s), nthe motor(s) which drive(s) theblower(s), producing airflow through the vacuum cleaner.3.1.8 secondary motor(s), nthe motor(s) in the vacuumcleaner system not employed for

24、the generation of airflow.3.1.9 sheath air, nthe air flowing over and around the testunit that is mounted in the test chamber.3.1.10 stabilization, nthose conditions of operation whichproduce results having a total variation of less than 3 % and atleast 1000 total count in all size ranges for challe

25、nge equal toor less than 15 counts per cubic foot in the 0.3-m channel forthe background count.3.1.10.1 DiscussionTotal variation is calculated as themaximum data point minus the minimum data point divided bythe maximum data point times 100.3.1.10.2 DiscussionThe assurance of statistical control isn

26、ot a simple matter and needs to be addressed. A process is ina state of statistical control if the variations between theobserved test results vary in a predictable manner and show nounassignable trends, cyclical characteristics, abrupt changes,excess scatter, or other unpredictable variations.3.1.1

27、1 system filtration effciency, na numerical valuebased on the ratio of a discrete size, particle count emergingfrom the vacuum cleaner, relative to the upstream challenge,particle count of the same size.3.1.12 test chamber, nthe enclosed space surrounding thevacuum cleaner being tested, used to main

28、tain the controlledenvironmental conditions required during the test procedure.3.1.13 test run, nthe definitive procedure that produces asingular measured result.3.1.13.1 DiscussionA test run is the period of time duringwhich one complete set of upstream or downstream air sampledata, or both, is acq

29、uired.3.2 Definitions:3.2.1 aerosol, na suspension of solid or liquid particles ina gas.3.2.2 background particles, nextraneous particles in theair stream prior to the start of the test.3.2.2.1 DiscussionUnder conditions required of this testmethod, extraneous particles will be found to pass through

30、 thetest chamber (for example, particles penetrating the test cham-bers HEPA filters or being abraded or released from thesurfaces of tubing and test equipment). Operating understabilized conditions, these particles shall be counted in thedownstream flow and subsequently subtracted from the testdata

31、 to determine the initial, fractional, filtration efficiency ofthe test unit (see Note 3).3.2.3 channel, nin particle analyzers, a group of particlesizes having a definitive range; the lower end of the rangeidentifies the channel, for example, a range of particle sizesfrom 0.3 to 0.5 m is identified

32、 as the 0.3-m channel.3.2.4 coincidence error, nin particle analyzers, errorsoccurring at concentration levels near or above the designlimits of the instrument being used because two or moreparticles are simultaneously being sensed.3Available from Institute of Environmental Sciences and Technology (

33、IEST),Arlington Place One, 2340 S. Arlington Heights Rd., Suite 100, Arlington Heights,IL 60005-4516, http:/www.iest.org.4Available from International Organization for Standardization (ISO), 1, ch. dela Voie-Creuse, Case postale 56, CH-1211, Geneva 20, Switzerland, http:/www.iso.ch.FIG. 1 Nozzle Ada

34、pterF1977 04 (2017)23.2.5 diffusion dryer, nin aerosol technology, a devicecontaining desiccant, surrounding the aerosol flow path, thatremoves excess moisture by diffusion capture.3.2.6 diluter, nin aerosol technology, a device used toreduce the concentration of particles in an aerosol.3.2.7 downst

35、ream, advsignifies the position of any objector condition that is physically in or part of the airflow streamoccurring after the referenced item.3.2.8 DPC, nan acronym for discrete particle counter.3.2.8.1 DiscussionThe IES Recommended PracticeCC001.3 and Practice F50 describe a discrete particle co

36、unteras a instrument that utilizes light-scattering or other suitableprinciple to count and size discrete particles in air, and thatdisplays or records the results. The discrete particle counter isalso known as a single-particle counter or simply as a particlecounter and it determines geometric rath

37、er than aerodynamicparticle size.3.2.9 fractional effciency, na numerical value based onthe ratio of the number of emergent, downstream particles of adiscrete size, relative to the number of incident, upstreamparticles of the same size.3.2.9.1 DiscussionIn practice, a single particle size isreported

38、, having an understood or assumed size range equal tothe channel size. This value is also known as the differentialsize efficiency or particle size efficiency, or both.3.2.10 fractional effciency curve, nthe fractional effi-ciency plotted as a function of the particle size.3.2.11 HEPA, adjan acronym

39、 for high-efficiency particu-late air.3.2.11.1 DiscussionAdditional information pertaining toHEPA may be found in IES 21.1 (99.97 % at 0.3 in salt asmodified) or EN 1822 (H12 or better at 0.3 rather than mostpenetrating particle size).53.2.12 laminar, adjin pneumatics, nonturbulent, laminarflow thro

40、ugh a pipe is considered laminar when the Reynoldsnumber is less than approximately 2000 and turbulent for aReynolds number greater than approximately 4000.3.2.12.1 DiscussionLaminar flow in a pipe is character-ized by a smooth symmetrical pattern of streamlines. TheReynolds number is a nondimension

41、al unit of measure propor-tional to the ratio of the inertial force of the gas to the frictionalforces acting on each element of the fluid.6,73.2.13 neutralizer, nin aerosol technology, a device usedto minimize losses and coagulation caused by electrostaticcharges, and to counteract high charge leve

42、ls in aerosolsgenerated by nebulization, combustion, or dispersion by neu-tralizing the particle charge level to the Boltzmann distributionlevel.3.2.13.1 DiscussionNeutralizers generally use radioactiveKrypton gas, Kr-85, sealed in a stainless steel tube shielded byan outer metal housing.3.2.14 part

43、icle, na small, discrete object.3.2.15 particulate, adjindicates that the material in ques-tion has particle-like properties.3.2.16 population, nthe total of all the units of a particularmodel vacuum cleaner being tested.3.2.17 sample, na small, representative group of vacuumcleaners, taken from a l

44、arge collection (population) of vacuumcleaners of one particular model, which serve to provideinformation that may be used as a basis for making adetermination concerning the larger collection.3.2.18 submicrometer, adjdescribes the range of particleshaving a mean diameter of less than 1 m (1 106m).3

45、.2.19 unit or test unit, na single vacuum cleaner systemof the model being tested.3.2.20 upstream, advsignifies the position of any object orcondition that is physically in or part of the airflow streamoccurring before the referenced item.3.2.21 vacuum cleaner, nas defined in Terminology F395.3.3 Sy

46、mbols:cfm = cubic feet/minute.D = diameter, in.ft = feet.F = degrees Fahrenheit.Hz = frequency, Hertz.H2O = water, column.in. = inch.psi = pound-force per square inch.Q = airflow rate, cubic feet/minute.RH = relative humidity.RMS = root mean square.s = second.X= population mean.Xi= test unit average

47、.m = micrometre (106m).% = percent.4. Summary of Test Method4.1 This test method provides a procedure to determine theinitial, fractional, filtration efficiency of a vacuum cleanersystem (system filtration efficiency). The effects of the down-stream concentration of particles that may be caused by v

48、ariousfactors including the electric motor(s) used in the vacuumcleaner are counted as part of the test method.The report on theresults of the testing will indicate if these downstream countswere included or were mathematically removed in the deter-mination of the initial fractional efficiency.4.2 I

49、n determining a vacuum cleaner systems initial,fractional, filtration efficiency, the test unit is placed in a testchamber, and sealed from ambient conditions. In this testchamber, a large, controlled volume of HEPA filtered air(meeting HEPA standards as defined by IES-RC-CC021.1) ispassed over and around the test unit. A controlled aerosolchallenge is introduced into the vacuum cleaner system.Upstream and downstream, air sampling measurements of the5“High Efficiency Particulate Air Filters (HEPA and ULPA),” Eu

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