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本文(ASTM D5096-2002(2007) Standard Test Method for Determining the Performance of a Cup Anemometer or Propeller Anemometer《杯形风速计或螺旋桨式风速计性能测定的标准试验方法》.pdf)为本站会员(刘芸)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 D5096-2002(2007) Standard Test Method for Determining the Performance of a Cup Anemometer or Propeller Anemometer《杯形风速计或螺旋桨式风速计性能测定的标准试验方法》.pdf

1、Designation: D 5096 02 (Reapproved 2007)Standard Test Method forDetermining the Performance of a Cup Anemometer orPropeller Anemometer1This standard is issued under the fixed designation D 5096; 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 the determination of the Start-ing Threshold, Distance Constant, Tran

3、sfer Function, andOff-Axis Response of a cup anemometer or propeller anemom-eter from direct measurement in a wind tunnel.1.2 This test method provides for a measurement of cupanemometer or propeller anemometer performance in theenvironment of wind tunnel flow. Transference of valuesdetermined by th

4、ese methods to atmospheric flow must be donewith an understanding that there is a difference between thetwo flow systems.1.3 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-p

5、riate safety and health practices and determine the applica-bility of regulatory limitations prior to use.2. Referenced Documents2.1 ASTM Standards:2D 1356 Terminology Relating to Sampling and Analysis ofAtmospheresD 3631 Test Methods for Measuring Surface AtmosphericPressure3. Terminology3.1 For de

6、finitions of terms used in this standard, refer toTerminology D 1356.3.2 Definitions of Terms Specific to This Standard:3.2.1 starting threshold (Uo, m/s)the lowest wind speed atwhich a rotating anemometer starts and continues to turn andproduce a measurable signal when mounted in its normalposition

7、. The normal position for cup anemometers is with theaxis of rotation vertical, and the normal position for propelleranemometers is with the axis of rotation aligned with thedirection of flow. Note that if the anemometer axis is notaligned with the direction of flow, the calculated wind speedcompone

8、nt parallel to the anemometer axis is used to deter-mine starting threshold.3.2.2 distance constant (L, m)the distance the air flowspast a rotating anemometer during the time it takes the cupwheel or propeller to reach (1 1/e) or 63 % of the equilibriumspeed after a step change in wind speed (1).3Th

9、e response ofa rotating anemometer to a step change in which wind speedincreases instantaneously from U =0toU=Ufis (2):Ut5 Uf1 2 e2t/ t! (1)where:Ut= is the instantaneous indicated wind speed at time t inm/s,Uf= is the final indicated wind speed, or wind tunnel speed,in m/s,t = is the elapsed time i

10、n seconds after the step changeoccurs, andt = is the time constant of the instrument.Distance Constant is: L 5 Uft (2)3.2.3 transfer function (f= a+bR, m/s)the linear rela-tionship between wind speed and the rate of rotation of theanemometer throughout the specified working range. fis thepredicted w

11、ind speed in m/s, a is a constant, commonly calledzero offset, in m/s, b is a constant representing the windpassage in m/r for each revolution of the particular anemometercup wheel or propeller, and R is the rate of rotation in r/s. Itshould be noted that zero offset is not the same as startingthres

12、hold. In some very sensitive anemometers the constant a,zero offset, may not be significantly greater than zero. Theconstants a and b must be determined by wind tunnel measure-ment for each type of anemometer (3).3.2.4 off-axis response (U/(Ufcos u)the ratio of theindicated wind speed (U) at various

13、 angles of attack (u)totheindicated wind speed at zero angle of attack (Uf) multiplied bythe cosine of the angle of attack. This ratio compares the actualoff-axis response to a cosine response.1This test method is under the jurisdiction of ASTM Committee D22 on AirQuality and is the direct responsib

14、ility of Subcommittee D22.11 on Meteorology.Current edition approved Oct. 1, 2007. Published December 2007. Originallyapproved in 1990. Last previous edition approved in 2002 as D5096 - 02.2For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer Service at servic

15、eastm.org. For Annual Book of ASTMStandards volume information, refer to the standards Document Summary page onthe ASTM website.3The boldface numbers in parentheses refer to the list of references at the end ofthis standard.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Cons

16、hohocken, PA 19428-2959, United States.3.3 Symbols:a (m/s) = zero offset constantb (m/r) = wind passage (apparent pitch) constant orcalibration constantL (m) = distance constantr (none) = a shaft revolutionR (r/s) = rate of rotationt(s) = time constantt (s) = timeUo(m/s) = starting thresholdU (m/s)

17、= indicated wind speed (used in off-axis test)Uf(m/s) = final indicated wind speed or wind tunnelspeedUmax(m/s) = anemometer application rangeUt(m/s) = instantaneous indicated wind speed at time tf(m/s) = predicted wind speedu (deg) = off-axis angle of attack4. Summary of Test Method4.1 This test me

18、thod requires a wind tunnel described inSection 6, Apparatus.4.2 Starting Threshold (Uo, m/s) is determined by measur-ing the lowest speed at which a rotating anemometer starts andcontinues to turn and produce a measurable signal whenmounted in its normal position.4.3 Distance Constant (L, m) may be

19、 determined at anumber of wind speeds but must include 5 m/s, and 10 m/s. Itis computed from the time required for the anemometer rotor toaccelerate (1 1/e) or 63 % of a step change in rotational speedafter release from a restrained, non-rotating condition. Thefinal response, Uf, is the wind tunnel

20、speed as indicated by theanemometer. In order to avoid the unrealistic effects of therestrained condition, as shown in Fig. 1, the time measurementshould be made from 0.30 of Ufto 0.74 of Uf. This interval inseconds is equal to one time constant (t) and is converted to theDistance Constant by multip

21、lying by the wind tunnel speed inmeters per second (m/s).4.4 Transfer Function (f= a+bR, m/s) is determined bymeasuring the rate of rotation of the anemometer at a numberof wind speeds throughout the specified working range. In therange of wind speeds where the anemometer response isnon-linear (near

22、 threshold) a minimum of five data points arerecorded. A minimum of five additional data points arerecorded within the working range of the anemometer andwind tunnel but above the non-linear threshold region (see Fig.2). Measurements are recorded for each data point with thewind tunnel speed ascendi

23、ng and descending. The values of aand b are determined by least-squares linear regression of theindividual data points.4.5 Off-Axis Response may be measured at a number ofwind speeds but must include 5 m/s, and 10 m/s.4.5.1 Cup AnemometersA measurement is made of theoutput signal when the anemometer

24、 is inclined into the wind(representing a down-draft) and away from the wind (repre-senting an updraft), while the wind tunnel is running at a steadyspeed. The output signal is measured with the anemometer axisat 5 intervals from vertical to plus and minus 30 fromvertical. The measured signal is the

25、n converted to a ratio foreach interval by dividing by the normal signal measured withthe anemometer axis in the normal, or vertical, position.4.5.2 Vane Mounted Propeller AnemometersA measure-ment is made of the output signal when the anemometers axisof rotation is inclined downward into the wind (

26、representing adown-draft) and inclined upward into the wind (representing anupdraft), while the wind tunnel is running at a steady speed.The output signal is measured at 5 intervals from a horizontalaxis of rotation to 630 from the horizontal. The measuredsignal is then converted to a ratio for each

27、 interval by dividingby the normal signal with the anemometer in the normal, orhorizontal position. This test may be conducted either with thevane in place or with the vane removed and the axis of rotationfixed in the down-tunnel direction.4.5.3 Fixed Axis Propeller AnemometerAmeasurement ismade of

28、the output signal when the anemometer is rotated inthe air stream throughout the complete 360 angle of attack.The signal is measured at a number of angles but must include10 intervals with additional measurements at 85, 95, 265, and275. The measured signal for each angle of attack is thenconverted t

29、o a ratio by dividing by the signal measured at 0angle of attack (axial flow). Additionally, the stall angle of thepropeller is measured by orienting the anemometer at 90 andFIG. 1 Typical Anemometer Response Curve FIG. 2 Typical Anemometer Calibration CurveD 5096 02 (2007)2slowly rotating into and

30、away from the air flow until thepropeller starts rotating continuously. Stall angle is the totalcontained angle within which the propeller does not continu-ously rotate. The procedure is repeated at 270.5. Significance and Use5.1 This test method will provide a standard for comparisonof rotating typ

31、e anemometers, specifically cup anemometersand propeller anemometers, of different types. Specificationsby regulatory agencies (4-7) and industrial societies havespecified performance values. This standard provides an un-ambiguous method for measuring Starting Threshold, DistanceConstant, Transfer F

32、unction, and Off-Axis Response.6. Apparatus6.1 Measuring System:6.1.1 RotationThe relationship between the rate of rota-tion of the anemometer shaft and the transducer output must bedetermined. The resolution of the anemometer transducerlimits the measurement. The resolution of the measuring orrecor

33、ding system must represent the indicated wind speed witha resolution of 0.02 m/s.6.1.2 TimeThe resolution of time must be consistent withthe distance accuracy required. For this reason the timeresolution may be changed as the wind tunnel speed ischanged. If one wants a distance constant measurement

34、to 0.1meter resolution one must have a time resolution of 0.05 s at 2m/s and 0.01 s at 10 m/s. If timing accuracy is based on 50 Hzor 60 Hz power frequency it will be at least an order ofmagnitude better than the resolution suggested above.6.1.3 Angle of AttackThe resolution of the angle of attack(u

35、) must be within 0.5.An ordinary protractor of adequate sizewith 0.5 markings will permit measurements with sufficientresolution. A fixture should be constructed to permit alignmentof the anemometer to the off-axis angles while the wind tunnelis running at a steady speed.6.2 Recording Techniques:6.2

36、.1 Digital recording systems and appropriate reductionprograms will be satisfactory if the sampling rate is at least 100samples/s. Exercise care to avoid electronic circuits with timeconstants which limit the proper recording of anemometerperformance. Oscilloscopes with memory and hard copy capa-bil

37、ity may also be used. Another simple technique is to use afast-response strip chart recorder (flat to 10 Hz or better) withenough gain so that the signal produced by the anemometerwhen the wind tunnel is running at 2 m/s is sufficient to providefull scale pen deflection on the recorder. The recorder

38、 chartdrive must have a fast speed of 50 mm/s or more.6.3 Wind Tunnel (8):6.3.1 SizeThe wind tunnel must be large enough so thatthe projection of the cup wheel or propeller, sensor, andsupport apparatus, is less than 5 % of the cross sectional areaof the tunnel test section.6.3.2 Speed RangeThe wind

39、 tunnel must have a speedcontrol which will allow the flow rate to be varied from 0 to aminimum of 50 % of the application range of the anemometerunder test. The speed control should maintain the flow ratewithin 60.2 m/s.6.3.3 CalibrationThe mean flow rate must be verified atthe mandatory speeds by

40、use of transfer standards which havebeen calibrated at the National Institute of Standards andTechnology or by a fundamental physical method. Speedsbelow 2 m/s for the threshold determination must be verified bya sensitive anemometer or by some fundamental time anddistance technique, such as measuri

41、ng the transition time ofsmoke puffs, soap bubbles, or heat puffs between two pointsseparated by known distance. A table of wind tunnel blowerrpm or some other index relating method of control to flow rateshould be established by this technique for speeds of 2 m/s andbelow.6.3.4 The wind tunnel must

42、 have a relatively constantprofile (known to within 1 %) and a turbulence level of lessthan 1 % throughout the test section.6.3.5 Environment (9-11). Differences of greater than 3 % inthe density of the air within the test environment may result inpoor intercomparability of independent measurements

43、of start-ing threshold (Uo) and distance constant (L) since these valuesare density dependent. The temperature and pressure of theenvironment within the wind tunnel test section, and theambient air pressure (Test Methods D 3631) shall be reportedfor each independent measurement.7. Sampling7.1 Starti

44、ng ThresholdThe arithmetic mean on ten con-secutive tests is required for a valid starting threshold mea-surement.7.2 Distance ConstantThe arithmetic mean of ten tests isrequired for a valid measurement at each speed. The results ofthe measurements at two or more speeds are averaged to asingle value

45、 for distance constant.7.3 Transfer FunctionTwo measurements of Ufand R arerecorded for each data point, one with the wind tunnel speedascending and one with the wind tunnel speed descending. Thevalues are then tabulated for each data point.7.4 Off-Axis ResponseThe results of the measurement attwo o

46、r more speeds are averaged to a single value for eachangle of attack. The averaged values are tabulated for eachangle of attack.8. Procedure8.1 Starting Threshold (Uo):8.1.1 Provide a mechanical method for holding the an-emometer in its normal position (see 3.1) and for releasing theanemometer from

47、a restrained, or non-rotating condition, whilethe wind tunnel is running at the test speed. Test the releasemechanism with the wind tunnel off to verify that the releasemethod does not move the anemometer rotor when activated.8.1.2 Set the wind tunnel to a speed that is lower than thestarting thresh

48、old. Slowly increase the wind tunnel speed untilthe cup wheel or propeller continues to rotate and produce ameasurable signal.8.1.3 Repeat the procedure of 8.1.2 ten times and record theresults.NOTE 1Vibration caused by the wind tunnel or by other sources cancause erroneous measurements of starting

49、threshold. Care must beexercised to eliminate any vibration in the wind tunnel test section duringthreshold measurements.D 5096 02 (2007)38.2 Distance Constant (L):8.2.1 Set the wind tunnel speed to 5 m/s. Stop the rotation ofthe cup wheel or propeller and release by method of 8.1.1.Record ten samples.8.2.2 Repeat procedure of 8.2.1 at 10 m/s.8.2.3 From the record measure the time in seconds (t) fromthe point when the rotor speed reaches 0.30 of equilibriumspeed (Uf) to the point where the rotor speed reaches 0.74 ofequilibrium speed (see Fi

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