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本文(ASTM E741-2000(2006) Standard Test Method for Determining Air Change in a Single Zone by Means of a Tracer Gas Dilution《用示踪气体稀释法测定单区内空气变化的标准测试方法》.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 E741-2000(2006) Standard Test Method for Determining Air Change in a Single Zone by Means of a Tracer Gas Dilution《用示踪气体稀释法测定单区内空气变化的标准测试方法》.pdf

1、Designation: E 741 00 (Reapproved 2006)Standard Test Method forDetermining Air Change in a Single Zone by Means of aTracer Gas Dilution1This standard is issued under the fixed designation E 741; the number immediately following the designation indicates the year oforiginal adoption or, in the case o

2、f 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 techniques using tracer gasdilution for determining a single zones ai

3、r change with theoutdoors, as induced by weather conditions and by mechanicalventilation. These techniques are: (1) concentration decay, (2)constant injection, and (3) constant concentration.1.2 This test method is restricted to any single tracer gas.The associated data analysis assumes that one can

4、 characterizethe tracer gas concentration within the zone with a single value.The zone shall be a building, vehicle, test cell, or anyconforming enclosure.1.3 Use of this test method requires a knowledge of theprinciples of gas analysis and instrumentation. Correct use ofthe formulas presented here

5、requires consistent use of units,especially those of time.1.4 Determination of the contribution to air change byindividual components of the zone enclosure is beyond thescope of this test method.1.5 The results from this test method pertain only to thoseconditions of weather and zonal operation that

6、 prevailed duringthe measurement. The use of the results from this test to predictair change under other conditions is beyond the scope of thistest method.1.6 The text of this test method references notes andfootnotes which provide explanatory material. These notes andfootnotes (excluding those in t

7、ables and figures) shall not beconsidered requirements of this test method.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 determin

8、e the applica-bility of regulatory limitations prior to use.2. Referenced Documents2.1 ASTM Standards:2D 4480 Test MEthod for MEasuring Surface Wind byMeans of Wind Vanes and Rotating Anemometers3E 260 Practice for Packed Column Gas ChromatographyE 779 Test Method for Determining Air Leakage Rate by

9、Fan PressurizationE 1186 Practices forAir Leakage Site Detection in BuildingEnvelopes and Air Barrier Systems2.2 Other Documents:ASHRAE Handbook of Fundamentals, Chapter 234ASHRAE Standard 6243. Terminology3.1 Definitions of Terms Specific to This Standard:3.1.1 air change flow, Q, nthe total volume

10、 of air passingthrough the zone to and from the outdoors per unit time (m3/s,m3/h, ft3/h).3.1.2 air change rate, A, nthe ratio of the total volume ofair passing through the zone to and from the outdoors per unitof time to the volume of the zone (1/s, 1/h).53.1.3 envelope, nthe system of barriers bet

11、ween a condi-tioned building zone and the outdoors.3.1.3.1 DiscussionThis includes exterior doors, windows,roofs, walls, floors and ductwork. It excludes interior parti-tions, ducts, and so forth, that separate conditioned zones.3.1.4 tracer gas, na gas that is mixed with air andmeasured in very sma

12、ll concentrations in order to study airmovement.3.1.5 tracer gas analyzer, na device used to measure theconcentration of tracer gas in an air sample.1This test method is under the jurisdiction of ASTM Committee E06 onPerformance of Buildings and is the direct responsibility of Subcommittee E06.41on

13、Air Leakage and Ventilation.Current edition approved Oct. 1, 2006. Published October 2006. Originallyapproved in 1980. Last previous edition approved in 2000 as E 741 00.2For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer Service at serviceastm.org. For Annu

14、al Book of ASTMStandards volume information, refer to the standards Document Summary page onthe ASTM website.3Withdrawn.4Available from American Society of Heating, Refrigerating, and Air-Conditioning Engineers, Inc. (ASHRAE), 1791 Tullie Circle, NE, Atlanta, GA30329, http:/www.ashrae.org.5A common

15、way of expressing air change rate units is ACH = air changes perhour = 1/h.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.3.1.6 tracer gas concentration, C, nthe ratio of thequantity of tracer gas in air to the quantity of that air(

16、moles/mole or m3/m3).3.1.7 single zone, na space or set of spaces wherein theconcentration of a tracer gas is maintained uniformly through-out and that only exchanges air with the outside.3.1.7.1 DiscussionMultizone buildings are difficult totreat as single zones and meet the uniformity of tracer ga

17、sconcentration required in this test method. Single zones withinmultizone buildings are difficult to isolate such that theyexchange air only with the outside and not to other zoneswithin the building via ventilation ducts, electrical conduits,elevator shafts, stairs, and other pathways.3.2 Symbols:3

18、.2.1 Variables:A = air change rate (1/s, 1/h).C = concentration (dimensionless).CONF = confidence limit value (units of the variable mea-sured).d = desired precision (dimensionless).ESE = estimated standard error.i = location number.k = constant.n = number of data points.N = number of sampling locat

19、ions in the zone.Q = flow (m3/s, m3/h, ft3/h).s = sample standard deviation (units of the variableestimated).t = a specific time (s, h).T = a period of time (s, h).V = volume (m3,ft3).a = probability (dimensionless).e = error (units of the variable estimated).n = coefficient of variation (dimensionl

20、ess).3.2.2 Superscripts:8 = value at the end of the test. = mean value.3.2.3 Subscripts:A = pertaining to air change rate.avg = average.bias = pertaining to bias.C = pertaining to concentration.est = estimated.GA = pertaining to the gas analyzer.i = pertaining to time or location.inj = pertaining to

21、 the injection period.lower = lower limit.meas = pertaining to the measurement.mix = pertaining to the mixing period.precis = pertaining to precision.rep = pertaining to replicates.sample = pertaining to a discrete tracer gas or air sample.target = pertaining to the desired level of tracer gas.test

22、= pertaining to the test period.twt = weighted according to tracer gas flow.tracer = pertaining to the tracer gas.upper = upper limit.vol = pertaining to the volume of the zone.zone = pertaining to the zone under study.1 = first occurrence under discussion.2 = last occurrence under discussion.3.2.4

23、Other Notations:Dt = time interval between periodic samples.(t) = function of time.(t, i) = function of time, t, and location, i.t(n,1a)= t-distribution value for n degrees of freedomand a two-sided probability of a.4. Summary of Test Method4.1 This test method uses the measurement of tracer gasdilu

24、tion to determine air change within a building or otherenclosure that is characterized as a single zone. The measure-ment of the concentration, and sometimes the volume rate ofthe tracer gas that is injected into the zone, allows calculationof the volume rate of outgoing air from the zone. From this

25、,one can infer the volume rate of incoming air. Three techniquesare presented: (1) concentration decay, (2) constant injection,and (3) constant concentration. Each technique employs spe-cific tracer gas injection and sampling strategies. Other tech-niques exist but are beyond the scope of this test

26、method. Table1 summarizes the three techniques.4.2 Choice of TechniqueIn choosing a technique formeasuring air change, consider the quantity to be measured, thecomparative capabilities of the techniques, and the complexityof the required equipment.4.2.1 Air Change Quantity to Be MeasuredChoose be-tw

27、een direct measurement of air change rate or air change flow.TABLE 1 Summary of Air Change Measurement TechniquesNOTE 1Speed of MeasurementA one-time measurement of airchange is most quickly acquired with the concentration decay techniqueand least quickly with the constant concentration technique.NO

28、TE 2Time-Varying Air ChangeThe constant concentration andconstant injection techniques may be useful for measuring air change ratesthat vary with time.NOTE 3Complexity of Zone GeometryWhereas all the techniquesrequire uniform tracer gas concentration, the constant concentrationtechnique may be usefu

29、l to achieve this in a zone with complex geometry.NOTE 4Equipment ComplexityThe complexity of the requiredequipment is lowest for the tracer gas decay technique and highest for theconstant concentration technique.Tech-niqueType of AirChange Mea-surementSteady-StateAssumptionRequired?Volume Control o

30、fTracer GasConcentrationMeasurementRelative ToConcentration DecaySection 8Average Rate No Approximate initial-targetOther samplesRegres-sionRate Yes Approximate initialtargetOther samplesConstant InjectionSection 9Average Flow No Flow rate to within2%Absolute stan-dardConstant ConcentrationSection 1

31、0Flow No Mean concentrationwithin2%oftargetAbsolute stan-dardE 741 00 (2006)2Conversions between rate and flow and vice versa are subjectto the precision and bias of the measurement of the zonevolume. To obtain air change rate directly, use the tracer gasdecay technique. To obtain air change flow, u

32、se the constantinjection or constant concentration techniques.5. Significance and Use5.1 Effects of Air ChangeAir change often accounts for asignificant portion of the heating or air-conditioning load of abuilding. It also affects the moisture and contaminant balancesin the building. Moisture-laden

33、air passing through the buildingenvelope can permit condensation and cause material degrada-tion. An appropriate level of ventilation is required in allbuildings; one should consult ASHRAE Standard 62 to deter-mine the ventilation requirements of a building.5.2 Prediction of Air ChangeAir change dep

34、ends on thesize and distribution of air leakage sites, pressure differencesinduced by wind and temperature, mechanical system opera-tion, and occupant behavior. Air change may be calculatedfrom this information, however, many of the needed param-eters are difficult to determine. Tracer gas testing p

35、ermits directmeasurement of air change.5.3 Utility of MeasurementMeasurements of air changeprovide useful information about ventilation and air leakage.Measurements in buildings with the ventilation system closedare used to determine whether natural air leakage rates arehigher than specified. Measur

36、ements with the ventilation sys-tem in operation are used to determine whether the air changemeets or exceeds requirements.5.4 Known ConditionsKnowledge of the factors that af-fect air change makes measurement more meaningful. Relatingbuilding response to wind and temperature requires repetitionof t

37、he test under varying meteorological conditions. Relatingbuilding response to the ventilation system or to occupantbehavior requires controlled variation of these factors.5.5 Applicability of ResultsThe values for air changeobtained by the techniques used in this test method apply to thespecific con

38、ditions prevailing at the time of the measurement.Air change values for the same building will differ if theprevailing wind and temperature conditions have changed, ifthe operation of the building is different, or if the envelopechanges between measurements because of construction ordeterioration. T

39、o determine air leakage sites, follow PracticeE 1186.5.6 Fan PressurizationA related technique (Test MethodE 779) uses a fan to pressurize the building envelope. Mea-surements of corresponding air flows and pressure differencesacross the envelope characterize envelope airtightness as eitherthe air l

40、eakage rate under specified induced pressure differ-ences or the equivalent leakage area of the envelope. Thesefactors permit modeling natural air change due to wind andtemperature differences. However, direct measurement of natu-ral air change is not possible with Test Method E 779. TestMethod E 77

41、9 permits comparison of different buildings,isolation of leakage sites, and evaluation of retrofit measures.6. Apparatus6.1 The apparatus includes means for distributing the tracergas, means for obtaining air samples, a gas analyzer to measuretracer gas concentration in the air samples, and other me

42、asure-ment devices.6.2 Tracer GasSee Appendix X1 for information ontracer gases and equipment used to measure their concentra-tions. Appendix X1 also contains tracer gas target concentra-tion levels and safety information.6.2.1 Tracer Gas Concentration StandardA known con-centration of tracer gas in

43、 air.6.3 Tracer Gas Injection and Distribution ApparatusThere are several means for releasing the appropriate volumeof tracer gas and distributing it in the zone.6.3.1 Tracer Gas Metering and Injection DevicesTheseinclude (1) a graduated syringe or other container of knownvolume with a means for con

44、trolled release of its contents and(2) a compressed tracer gas supply with a critical orifice, acritical orifice metering valve, an electronic mass flow control-ler, or other tracer gas flow rate measurement and controldevice.6.3.2 Tracer Gas Distribution DevicesThese include (1)fans that permit goo

45、d mixing of tracer gases injected manuallywithin the zone (oscillating or hassock fans, or, ducted forcedair systems can serve this purpose), (2) tubing networks thatdispense tracer gas via manifolds and automated valves and (3)pressure-operated valves that stop the flow from a tubingnetwork when th

46、e tubing is not pressurized. (Note that leaks intubing networks release tracer gas at unintended locations.)6.4 Tracer Gas Sampling ApparatusesExamples includecontainers for manual sampling and automatic samplers thatemploy containers or networks.6.4.1 Materials for Sampling ApparatusesSelect andche

47、ck materials used in tracer gas sampling systems carefullyfor their reactivity and absorption of the tracer gas in use.Depending on the tracer gas, desirable materials include glass,copper, and stainless steel. Metal foil is appropriate for flexiblecontainers. Other acceptable materials include poly

48、propylene,polyethylene, and nylon. Materials that absorb tracer gasdegrade the accuracy of the measurement. Other materialsrelease substances that interfere with tracer gas analyzeraccuracy. Depending on the tracer gas, materials to avoidinclude soft plastics, like vinyl and TFE-fluorocarbon.6.4.2 M

49、anual SamplersThese include syringes, flexiblebottles, or air sample bags with a capacity of at least threetimes the minimum sample size of the gas analyzer used. Thesecontainers shall have an airtight seal to assure that the sampleis not diluted or contaminated. Each container shall have alabel that keys it to a record of the time and location that it wasused. Do not reuse sample containers without first confirmingthat they are not contaminated with tracer gas.6.4.3 Automatic SamplersThese apparatuses comprise ei-ther a sampling network or au

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