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本文(ASTM D6830-2002(2016) 6160 Standard Test Method for Characterizing the Pressure Drop and Filtration Performance of Cleanable Filter Media《可清洁过滤器介质的压降和过滤特性表征的标准试验方法》.pdf)为本站会员(rimleave225)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 D6830-2002(2016) 6160 Standard Test Method for Characterizing the Pressure Drop and Filtration Performance of Cleanable Filter Media《可清洁过滤器介质的压降和过滤特性表征的标准试验方法》.pdf

1、Designation: D6830 02 (Reapproved 2016)Standard Test Method forCharacterizing the Pressure Drop and FiltrationPerformance of Cleanable Filter Media1This standard is issued under the fixed designation D6830; the number immediately following the designation indicates the year oforiginal adoption or, i

2、n 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 characterizes the operational perfor-mance of cleanable filter me

3、dia under specified laboratoryconditions.1.2 This test method determines the airflow resistance, drag,cleaning requirements, and particulate filtration performance ofpulse cleaned filter media.1.3 This test method determines the comparative perfor-mance of cleanable filter media.1.4 The results obta

4、ined from this test method are useful inthe design, construction, and selection of filter media.1.5 The results obtained by this test method should not beused to predict absolute performance of full scale fabric filter(baghouse) facilities, however these results will be useful inselection of proper

5、filter media and identification of recom-mended operating parameters for these full scale fabric filterfacilities.1.6 The values stated in SI units are to be regarded asstandard. The values given in parentheses are mathematicalconversions to inch-pound units that are provided for informa-tion only a

6、nd are not considered standard.1.7 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 limitatio

7、ns prior to use.2. Referenced Documents2.1 ASTM Standards:2D123 Terminology Relating to TextilesD461 Test Methods for Felt (Withdrawn 2003)3D737 Test Method for Air Permeability of Textile FabricsD1356 Terminology Relating to Sampling and Analysis ofAtmospheresE832 Specification for Laboratory Filte

8、r PapersF740 Definitions of Terms Relating to Filtration (Withdrawn2002)32.2 Other Standards:Draft Generic Verification Protocol for Baghouse FiltrationProducts4Standard Operating Procedures for Verification Testing ofBaghouse Filtration Products Using LTG/FEMA TestApparatus, Draft, December5VDI 392

9、6, Part 2 Testing of Filter Media for CleanableFilters under Operational Conditions63. Terminology3.1 DefinitionsFor definitions of other terms used in thistest method, refer to Terminologies D123, D1356, and F740,aswell as 11.1 of this test method.3.2 Definitions of Terms Specific to This Standard:

10、3.2.1 fabric conditioning periodthe period during whichthe fabric specimen is conditioned within the test apparatus bysubjecting it to 10 000 rapid compressed air cleaning pulses at3-5 seconds between pulses. During the conditioning periodthe specimen is subjected to test method specifications for d

11、ustand gas flow rates.3.2.2 fabric recovery periodtime period following theconditioning period during which the fabric is allowed torecover from rapid pulsing. The fabric recovery period requires30 filtration cycles under normal filtration cycles. During therecovery period the fabric is subjected to

12、 test method specifi-cations for dust and gas flow rates.1This test method is under the jurisdiction of ASTM Committee D22 on AirQuality and is the direct responsibility of Subcommittee D22.03 on AmbientAtmospheres and Source Emissions.Current edition approved Sept. 1, 2016. Published September 2016

13、. Originallyapproved in 2002. Last previous edition approved in 2008 as D6830 02 (2008).DOI: 10.1520/D6830-02R16.2For 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

14、 standards Document Summary page onthe ASTM website.3The last approved version of this historical standard is referenced onwww.astm.org.4Generic Verification Protocol for Baghouse Filtration Products, RTI, ResearchTriangle Park, NC, September 2001.5Test/QAPlan for the Verification Testing of Baghous

15、e Filtration Products, ETS,Inc., October 2000.6Verein Deutscher Ingenieure (VDI 3926, Part 2), “Testing of Filter Media ForCleanable Filters under Operational Conditions,” December, 1994. Available fromBeuth Verlag GmBH, 10772 Berlin, Germany.Copyright ASTM International, 100 Barr Harbor Drive, PO B

16、ox C700, West Conshohocken, PA 19428-2959. United States13.2.3 filtration velocityvolumetric is the flow rate per unitface area. Also referred to as gas-to-cloth ratio (G/C), orair-to-cloth ratio (A/C).3.2.4 filtration cyclea cycle in the filtration process inwhich the particulate matter is allowed

17、to form a dust cake onthe face area of the test specimen with no disturbances from apulse of compressed air to clean the dust cake from the testspecimen. The filtration cycle is the time period between twoconsecutive cleaning or pulse cycles.3.2.5 filtration cycle timethe duration of time, measured

18、inseconds or minutes, defined by one filtration cycle. Alsoreferred to as time between cleaning cycles, or pulse cycles.3.2.6 normal filtration cyclea filtration cycle specified forthis test method in which the dust cake is allowed to form onthe test specimen until a differential pressure of 1000 Pa

19、 (4 in.w.g.) is reached. At this point, the test specimen is cleaned bya pulse of compressed air from the clean gas side. After thepulse action is completed the next filtration cycle beginscontinuing until the pressure differential reaches 1000 Pa, thusinitiating the next pulse.3.2.7 PM- particulate

20、 matteralso used interchangeablywith “dust” when referring to test dust specifications or inletparticulate matter flow rates.3.2.8 PM 2.5particulate matter nominally 2.5 microme-tres and less in equivalent aerodynamic diameter.3.2.9 performance test perioda 120 minute test periodfollowing the fabric

21、 recovery period (360 minutes minimumfor PM 2.5 measurements) during which measurements forparticulate emissions, residual pressure drop, number of filtra-tion cycles, and filtration cycle time are monitored and re-corded. During the performance test period pulse cleaning istriggered at a differenti

22、al pressure of 1000 Pa (4 in. w.g.)measured across the test specimen. Gas and dust flows aremaintained at test specification flow rates.3.2.10 residual pressure dropthe air flow resistance mea-sured across the test specimen, as measured three seconds aftercleaning the test specimen with a pulse of c

23、ompressed air,Alsoreferred to as residual differential pressure, P, residual delta P,or dPr,orpr.4. Summary of Test Method4.1 A fabric filter sample is challenged with a standard dust(particulate matter) under simulated baghouse conditions atspecified rates for air and dust flow.4.2 The test consist

24、s of three test runs. Each run consists ofthree sequential phases or test periods during which dust andgas flow rates are continuously maintained to test specification.4.2.1 The test phases are:4.2.1.1 A conditioning period consisting of 10 000 rapidpulse filtration cycles to simulate long term oper

25、ation,4.2.1.2 A30 normal filtration cycle recovery period to allowthe test specimen to recover from rapid pulsing, and4.2.1.3 A two-hour performance test period, consisting ofnormal filtration cycles, during which measurements for par-ticulate emissions are determined by gravimetric measurementof th

26、e particulate matter which passes through the test speci-men.4.3 PM 2.5 emission determinations can also be conductedby employing a cascade impactor and modifying the clean gasduct of the test apparatus to insure that isokinetic samplingrates through the impactor are maintained.4.3.1 If measuring fo

27、r PM 2.5 it is advised that the perfor-mance test period be increased from 120 minutes to at least 360minutes to allow for adequate weight gains on each collectionstage of the impactor.4.4 Initial residual pressure drop, average residual pressuredrop, residual pressure drop increase, number of filtr

28、ationcycles, and average filtration cycle time are monitored andrecorded during the performance test period. Table 1 and Table2 provide test specifications and test conditions respectively.Table 3 provides a listing of results that will be obtained fromthis test.5. Significance and Use5.1 This test

29、method determines the comparative perfor-mance of filter media. The results can be used for design,manufacturing, construction and selection of filter media.5.2 Results obtained by this test method should not be usedto predict absolute performance on full scale fabric filter(baghouse) facilities, ho

30、wever these results will be useful inselection of proper filter media and identification of recom-mended operating parameters for these full scale fabric filterfacilities.5.3 Dust types vary greatly; therefore, the results obtainedusing the standard dust should not be extrapolated to other dusttypes

31、.6. Interferences6.1 Any variations in the test conditions or test apparatusthat may alter the physical properties of the dispersed test dustparticles may affect the precision of the test results.6.1.1 These properties include static charge, cohesion, ef-fective particle size, or any other property

32、that affects theability of the dust particles to actually reach the surface of thetest specimen or that affects the interaction between the dustparticles and the filtration surface during the filtration or pulsecleaning process.6.1.2 The test dust is known to have minor differences inparticle size f

33、rom shipment to shipment and lot number to lotnumber. It is not fully understood what impact, if any, thesedeviations have on the test results. With each new shipmentand every three months thereafter, the dust particle size shouldbe characterized using the handling, preparation, and testingprocedure

34、s specified in this test method. In addition the impactof the dust on differential pressure and weight gain values of areference fabric should be established and testing of the dustand reference fabric should be conducted quarterly thereafter toallow for comparisons with the established values.6.1.3

35、 Inadequate dispersion of the test dust may affect theprecision of test results. Any surface with which the dustcontacts after it leaves the feeder should be made in strictaccordance with the specification. The use of alternate mate-rials for internal surfaces of the raw and clean gas duct maycause

36、the charge on the dust particles to be alteredtriboelectrically, which may affect the results.D6830 02 (2016)2TABLE1TestSpecificationsConstantParameterNominalValueAcceptableBiasAAcceptablePrecisionBInstrumentFrequencyTestDustParticleSizePercentag(PuralNF)50%2.5m(Avg.3runs)+40%10%(Avg.3runs)0.0001gFi

37、ltermassGainperweighingAndersenImpactor,Model50-900(asDeterminedbyAnalyticalBalance)QuarterlyandEachNewBatchTestDustMassMeanAerodynamicDiameter(PuralNF)1.5m(Avg.3runs)1m(Avg.3runs)0.0001gFiltermassGainperweighingAndersenImpactor,Model50-900(asDeterminedbyAnalyticalBalance)QuarterlyandEachNewBatchFil

38、terSampleDiameter,mm(in.)(Exposeddiameteris140mm,5.51in.)150(5.88)1.6(116)1.6(116)FilterCutterEachTestSpecimenInletRawGasFlowrate,m3/h(cfm)5.8(3.4)0.3(0.2)0.01(0.006)MassFlowControllerEachTest.Calibrate6MonthCleanGasFlowrate,m3/h(cfm)1.8(1.10)0.9(0.06)0.01(0.006)MassFlowControllerEachTest.Calibrate6

39、MonthSampleGasFlowrate,m3/h(cfm)1.13(0.67)0.06(0.03)0.01(0.006)MassFlowControllerEachTest.Calibrate6MonthFiltrationVelocity(G/CRatio),Cm/h(fpm)120(6.6)6(0.3)1.2(0.07)MassFlowControllerandFilterSampleAreaEachTest.CalibrateEvery6MonthsPressureDropTriggerforCleaning1000Pa(4.0in.w.g)0.127cmw.g(0.05in.w.

40、g)0.127cmw.g(0.05in.w.g)PressureTransducerEachTestRapidPulseCleaningCycles(010000),s311DataloggerClockBeginningofEachTestPulseDuration,ms50.05.01.0PulseRegulatorEachTestPulseCleaningPressure,MPa(psi)0.5(75.0)0.03(5.0)0.007(1.0)PulseRegulatorEachTestGasTemperature,F(C)77(25)4(2)1ThermocoupleEachTestI

41、nletDustConcentration,g/dscm(gr/dscf)18.4(8.0)3.6(1.6)0.22(0.1)DustLoadCellandMassFlowControllerContinuouslyMinimumAggregateMassGainforImpactorSubstrateFilters,g0.00010.00005AndersenImpactor,Model50-900(asDeterminedbyAnalyticalBalance)EachTestChargeNeutralizerPolonium-210AlphaSourceReplaceAnnuallyDu

42、stFeederOperation,g/h1002020DustLoadCellEachDustLoadingOperationAAcceptablebias=Forthetesttobevalid,theinstrumentreadingmustrecordavaluewithinlistedrange.Forexample,the4degreesaccuracymeansthatthetemperaturereadingofthegasmustbewithintherangeof73to81F.BPrecision=Theprecisionoftheinstrumentreading.Fo

43、rexample,thethermometerorthermocouplethatisusedtomeasuretemperaturemustrecordtemperaturewithin1degreeofactual.CFiltrationVelocity(G/C)=CleanGasStreamVolume/ExposedAreaofFilterSample=1.10cfm/0.166ft2=6.6fpm.1.85m3/h/0.01539m2=120m/h.D6830 02 (2016)36.1.4 The relative humidity and temperature at which

44、 thetest is conducted is known to have an effect on the test results.As there are no quantitative relationship that have beenestablished that would allow the correction of test results forvariations in these parameters, it is recommended that the testbe conducted in a conditioned room with a relativ

45、e humiditybetween 40 and 65 % and at a temperature between 23 and27C (73.4 to 80.6F). In the absence of a conditioned room,the relative humidity and temperature should be as tightlycontrolled as possible and their levels recorded throughout thetest.7. Apparatus7.1 General DescriptionThe test apparat

46、us consists of abrush-type dust feeder that disperses dust into a verticalrectangular duct (raw gas channel). The dust feed is continu-ously measured and recorded via an electronic scale locatedbeneath the dust feed mechanism. A radioactive Polonium-210alpha source is used to neutralize the dust ele

47、ctrically before itsentry into the raw gas channel. An optical photo sensormonitors the concentration of the inlet dust and ensures that thedust flow is consistent throughout the test.Aportion of the dustladen raw gas flow is extracted from the raw gas channelthrough the test specimen, which is moun

48、ted vertically at theentrance to a horizontal duct (clean gas channel). Two vacuumpumps maintain gas flow through the raw gas and clean gaschannels. The flow rates, and thus the filtration velocity (G/C)are kept constant using mass flow controllers. High efficiencyfilters are installed upstream of t

49、he flow controllers and pumpsto prevent contamination or damage caused by the dust. Thetest specimen is cleaned periodically by pulsing with com-pressed air. The cleaning system consists of a compressed airtank, a quick action diaphragm valve, and a blow tube withnozzle facing the downstream side of the test specimen. Thedust that penetrates the test specimen is captured on a highefficiency filter. The pressure drop across the test specimen ismeasured and recorded every three seconds throughout the test.Fig. 1 provides a sch

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