ASTM E881-1992(2009) 317 Standard Practice for Exposure of Solar Collector Cover Materials to Natural Weathering Under Conditions Simulating Stagnation Mode《在模拟滞留模式下暴露于自然气候下的太阳能收集器.pdf

上传人:rimleave225 文档编号:533718 上传时间:2018-12-06 格式:PDF 页数:8 大小:139.54KB
下载 相关 举报
ASTM E881-1992(2009) 317 Standard Practice for Exposure of Solar Collector Cover Materials to Natural Weathering Under Conditions Simulating Stagnation Mode《在模拟滞留模式下暴露于自然气候下的太阳能收集器.pdf_第1页
第1页 / 共8页
ASTM E881-1992(2009) 317 Standard Practice for Exposure of Solar Collector Cover Materials to Natural Weathering Under Conditions Simulating Stagnation Mode《在模拟滞留模式下暴露于自然气候下的太阳能收集器.pdf_第2页
第2页 / 共8页
ASTM E881-1992(2009) 317 Standard Practice for Exposure of Solar Collector Cover Materials to Natural Weathering Under Conditions Simulating Stagnation Mode《在模拟滞留模式下暴露于自然气候下的太阳能收集器.pdf_第3页
第3页 / 共8页
ASTM E881-1992(2009) 317 Standard Practice for Exposure of Solar Collector Cover Materials to Natural Weathering Under Conditions Simulating Stagnation Mode《在模拟滞留模式下暴露于自然气候下的太阳能收集器.pdf_第4页
第4页 / 共8页
ASTM E881-1992(2009) 317 Standard Practice for Exposure of Solar Collector Cover Materials to Natural Weathering Under Conditions Simulating Stagnation Mode《在模拟滞留模式下暴露于自然气候下的太阳能收集器.pdf_第5页
第5页 / 共8页
亲,该文档总共8页,到这儿已超出免费预览范围,如果喜欢就下载吧!
资源描述

1、Designation: E 881 92 (Reapproved 2009)Standard Practice forExposure of Solar Collector Cover Materials to NaturalWeathering Under Conditions Simulating Stagnation Mode1This standard is issued under the fixed designation E 881; the number immediately following the designation indicates the year ofor

2、iginal 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 practice covers a procedure for the exposure ofsolar col

3、lector cover materials to the natural weather environ-ment at elevated temperatures that approximate stagnationconditions in solar collectors having a combined back and edgeloss coefficient of less than 1.5 W/(m2 C).1.2 This practice is suitable for exposure of both glass andplastic solar collector

4、cover materials. Provisions are made forexposure of single and double cover assemblies to accommo-date the need for exposure of both inner and outer solarcollector cover materials.1.3 This practice does not apply to cover materials forevacuated collectors, photovoltaic cells, flat-plate collectorsha

5、ving a combined back and edge loss coefficient greater than1.5 W/(m2 C), or flat-plate collectors whose design incorpo-rates means for limiting temperatures during stagnation.1.4 This standard does not purport to address all of thesafety concerns, if any, associated with its use. It is theresponsibi

6、lity of the user of this standard to establish appro-priate safety and health practices and determine the applica-bility of regulatory limitations prior to use.2. Referenced Documents2.1 ASTM Standards:2D 1435 Practice for Outdoor Weathering of PlasticsE 765 Practice for Evaluation of Cover Material

7、s for FlatPlate Solar Collectors3E 772 Terminology Relating to Solar Energy ConversionE 782 Practice for Exposure of Cover Materials for SolarCollectors to Natural Weathering Under Conditions Simu-lating Operational ModeG7 Practice for Atmospheric Environmental ExposureTesting of Nonmetallic Materia

8、ls2.2 Other Documents:4Federal Specification HH-I-558B, Amendment 3, InsulationBlocks, Boards, Felts, Sleeving (Pipe and Tube Covering),and Pipe Fitting Covering Thermal (Mineral Fiber, Indus-trial Type) August 19763. Terminology3.1 Definitions:3.1.1 For definitions of terms used in this practice, r

9、efer toTerminology E 772.4. Significance and Use4.1 This practice describes a weathering box test fixture andestablishes limits for the heat loss coefficients. Uniform expo-sure guidelines are provided to minimize the variables encoun-tered during outdoor exposure testing.4.2 Since the combination o

10、f elevated temperature and solarradiation may cause some solar collector cover materials todegrade more rapidly than either exposure alone, a weatheringbox that elevates the temperature of the cover materials is used.4.3 This practice may be used to assist in the evaluation ofsolar collector cover m

11、aterials in the stagnation mode. Nosingle temperature or procedure can duplicate the range oftemperatures and environmental conditions to which covermaterials may be exposed during stagnation conditions. Toassist in evaluation of solar collector cover materials in theoperational mode, Practice E 782

12、 should be used. Insufficientdata exist to obtain exact correlation between the behavior ofmaterials exposed in accordance with this practice and actualin-service performance.4.4 This practice may also be useful in comparing theperformance of different materials at one site or the perfor-mance of th

13、e same material at different sites, or both.4.5 Means of evaluating the effects of weathering areprovided in Practice E 765, and in other ASTM test methodsthat evaluate material properties.4.6 Exposures of the type described in this practice may beused to evaluate the stability of solar collector co

14、ver materialswhen exposed outdoors to the varied influences that compriseweather. Exposure conditions are complex and changeable.1This practice is under the jurisdiction of ASTM Committee E44 on Solar,Geothermal and OtherAlternative Energy Sources and is the direct responsibility ofSubcommittee E44.

15、05 on Solar Heating and Cooling Systems and Materials.Current edition approved April 1, 2009. Published June 2009. Originallyapproved in 1982. Last previous edition approved in 2003 as E 88192(2003).2For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer Service

16、 at serviceastm.org. For Annual Book of ASTMStandards volume information, refer to the standards Document Summary page onthe ASTM website.3Withdrawn. The last approved version of this historical standard is referencedon www.astm.org.4Federal Specification HH-I-558B has several classes of insulation

17、materialintended for high-temperature use.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.Important factors are material temperature, climate, time ofyear, presence of industrial pollution, etc. Generally, because itis difficult to d

18、efine or measure precisely the factors influencingdegradation due to weathering, results of outdoor exposuretests must be taken as indicative only. Repeated exposuretesting at different seasons over a period of more than one yearis required to confirm exposure tests at any one location.Control sampl

19、es must always be used in weathering tests forcomparative analysis.5. Weathering Box Test Fixture5.1 Test Fixture Requirements:5.1.1 The weathering box test fixture shall be constructedsuch that the combined back and edge loss coefficient is lessthan 1.5 W/(m2 C) (0.264 Btu/(ft2 h F) (Note 1). (Them

20、ethod for determining this coefficient is outlined inAppendixX1 of this practice.) The distance between the absorber and theclosest cover plate shall be between 13 and 38 mm (0.5 and 1.5in.). For a double-cover exposure the separation between theinner and outer cover shall be between 13 and 38 mm (0

21、.5 and1.5 in.). Not more than 10 % of the absorber plate area shall beshaded when the sun is at a 30 angle with the plane of the frontsurface of the exposure box.NOTE 1A good flat-plate solar collector has a combined back andedge loss coefficient of less than about 1.5 W/(m2 C) (0.264 Btu/(ft2hF).5.

22、1.2 Boxes that meet the requirements of 5.1.1 are de-scribed in Table 1. Fig. 1 and Fig. 2 illustrate the weatheringbox test fixtures. Although Fig. 1 shows a square box, anyshape is permitted if the requirements in 5.1.1 are met.Appendix X1 of this practice describes the method for deter-mining the

23、 combined back and edge loss coefficient.5.2 Contents of the Weathering Box Test Fixture: (1) a box,(2) insulation, (3) absorber, (4) box top, (5) spacer, (6) glazingframe, and (7) adhesive tapes.5.2.1 The box may have any dimensions and be made of anymaterial as long as the requirements in 5.1.1 ar

24、e met. A weephole shall be drilled at the lower end of the bottom of the boxto provide drainage and to minimize moisture accumulation.NOTE 2It is desirable that the box and box top be made of a materialthat will be unaffected by the exposure environment. A metal resistant tocorrosion encountered in

25、the environment would be suitable. If wood isused, it should be painted or treated on the exterior to make it resistant tomoisture. In certain climates only rot-resistant wood should be used tominimize deterioration during exposure.5.2.2 The insulation shall be a material suitable for use at ahigh t

26、emperature (for example, 150C (302F).4NOTE 3Insulation materials having resins or binders should not beused because elevated temperatures may cause the resin or binder todeteriorate and outgas. Outgassing products condense on the covermaterial causing changes in the solar transmittance of the solar

27、collectorcover material.5.2.3 The absorber shall be of an adequate size to cover theinterior surface of the weathering box aperture. The absorbershall have a flat black nonselective coating having an absorp-tance not less than 0.90 after exposure.5.2.4 The box top shall be of an adequate size to fit

28、 over thebox.NOTE 4The box top is intended to protect the edges of the testspecimen in contact with the box from reaching excessively hightemperatures, to minimize exposure of the adhesive tape to sunlight, andto minimize moisture penetration into the exposure test fixture.5.2.5 The glazing frame is

29、 intended to hold the cover platematerial. The glazing frame shall have dimensions similar tothe perimeter of the box. For a double-cover exposure theframe shall provide a separation between the two cover platesof not less than 13 mm (0.5 in.) or greater than 38 mm (1.5 in.).Exact dimensions of the

30、frame are related to the requirementsTABLE 1 Examples of Weathering Box Test Fixtures with Combined Heat Loss Coefficient for Back and Edge Losses Less than1.5 W/(m2C) (0.264 Btu/(ft2hF)Example 1 Example 2Box material steel aluminumInsulation material glass fiber glass fiberl, length of aperture ins

31、ide edge insulation 0.25 m (9.8 in.) 0.61 m (24 in.)w, width of aperture inside edge insulation 0.13 m (5.2 in.) 0.61 m (24 in.)h, distance from top of absorber to bottom of coverplate0.013 m (0.5 in.) 0.038 m (1.5 in.)Aa, area of aperture of test fixture Aa=(l 3 w) 0.033 m2(51 in.2) 0.372 m2(576 in

32、.2)Ab, area of back insulation Ab=(l 3 w) 0.033 m2(51 in.2) 0.372 m2(576 in.2)Ae, area of edge insulation Ae=2(l + w)h 0.01 m2(15 in.2) 0.093 m2(144 in.2)db, thickness of back insulation 0.077 m (3 in.) 0.05 m (2 in.)dc, thickness of box 0.001 m (0.04 in.) 0.002 m (0.08 in.)de, thickness of edge ins

33、ulation 0.013 m (0.5 in.) 0.025 m (1 in.)Kb, conductivity of back insulation 0.038 W/(mC) (0.22 Btu/(ft2hF) 0.038 W/(mC) (0.022 Btu/(ft2hF)Kc, conductivity of box 43 W/(mC) (24.9 Btu/(ft2hF) 204 W/(mC) (118 Btu/(ft2hF)Ke, conductivity of edge insulation 0.038 W/(mC) (0.022 Btu/(ft2hF) 0.038 W/(mC) (

34、0.022 Btu/(ft2hF)Ab/Aa11Ae/Aa0.305 0.25db/Kb2.03 m2C/W (11.4 (ft2hF)/Btu) 1.32 m2C/W (7.5 (ft2hF)/Btu)dc/Kc2.33 3 105m2C/W (1.32 3 104(ft2hF)/Btu) 9.8 3 106m2C/W (5.6 3 105(ft2hF)/Btu)de/Ke0.342 m2C/W (1.94 (ft2hF)/Btu) 0.658 m2C/W (3.74 (ft2hF)/Btu)UL, back + UL, edge 1.38 W/(m2C) (0.243 Btu/(ft2hF

35、) 1.14 W/(m2C) (0.201 Btu/(ft2hF)E 881 92 (2009)2in 5.1.1. A vent hole may be drilled at one end of the glazingframe to provide drainage and to minimize moisture accumu-lation.5.2.6 The spacer shall provide a separation of 13 to 38 mm(0.5 to 1.5 in.) between the absorber and the closest cover plate.

36、Exact dimensions of the spacer are related to the requirementsin 5.1.1.NOTE 5Certain designs of weathering boxes may eliminate the needfor the spacer.5.2.7 The adhesive tapes shall be stable when exposed tomoisture and elevated temperatures. They shall be compatiblewith the specific materials from w

37、hich the box, glazing frame,box top, and cover plate are made.5.2.8 Organic materials are potential sources of outgassingand shall be eliminated from the interior of the weathering boxwhere possible. For example, metallic parts shall be cleaned toremove traces of grease or other foreign matter. Othe

38、r possiblesources of outgassing include coatings and sealants. TestFIG. 1 Top View of Weathering Box Test FixtureFIG. 2 Assembled Weathering Box Test FixtureE 881 92 (2009)3fixture components containing organic materials (for example,absorber coatings or insulation) shall be heated in an oven at150C

39、 (302F) for 24 h before the test fixture is assembled.This should minimize outgassing that results from deteriorationof the organic components exposed to elevated temperatures.5.3 Test Specimen:5.3.1 The test specimen shall be of an adequate size to coverthe aperture of the box or glazing frame and

40、to permit suitableattachment.NOTE 6Adequate allowances should be made for materials that willundergo dimensional changes due to temperature.5.3.2 The test specimen identification marks shall not inter-fere with either the exposure or the subsequent testing.5.4 Sample Mounting:5.4.1 Rigid and Semirig

41、id Glazings:5.4.1.1 Lay the test specimen for single cover exposuredirectly on either the spacer or the glazing frames. If used, theframe is then placed on the spacer in the weathering box (seeFig. 2).5.4.1.2 Lay the test specimen for inner cover exposure of adouble cover assembly on the spacer or a

42、ttach it to the glazingframe before the glazing frame is placed in the box (see Fig. 2).5.4.1.3 Lay the test specimen for outer cover exposure of adouble cover assembly on the top of the glazing frame (see Fig.2).5.4.2 FilmsPlace film test specimens on the glazing frameusing adhesive transfer tape t

43、o hold the test specimen taut. It isessential that uniform tensioning be obtained prior to applyingthe tape. Then place the frame in the box similar to 5.4.1.1,5.4.1.2, and 5.4.1.3.5.5 Assembly of Weathering Box:5.5.1 Slide the various parts of the weathering box testfixture into position. The outer

44、 glazing must be roughly flushwith the top side of the box. The position of an inner glazing,if used, shall be nearest the bottom of the box.5.5.2 After assembly, seal the frame and outer glazing inplace with an adhesive tape to prevent moisture intrusion.Place the box top on the box (see Fig. 2).6.

45、 Natural Weathering Exposure6.1 Mount the weathering boxes in a backed condition using13-mm (0.5-in.) exterior grade plywood on weathering rackssuch as those described in Practice D 1435. The racks shall becapable of having the angles adjusted and have their axis ofrotation on an east-west line.6.2

46、Use a variable angle exposure to maximize solar radia-tion incident upon the weathering box. Adjust the racksaccording to the schedule given in Table 2. Positive rack anglesface south. Choose the angles so that the weathering boxes arenever closer to the horizontal than by 5. Other variableexposure

47、schedules requiring more than four adjustments peryear may be used. The method for determining the variableangle exposure schedule is described in Appendix X2 of thispractice.6.3 When a number of weathering boxes are exposedsimultaneously, mount the boxes side by side with the sides nottouching.6.4

48、Do not clean the solar collector cover materials duringexposure.6.5 Visually inspect the test specimens at intervals of notmore than one month. Record all changes in appearance.7. Report7.1 The report shall include the following:7.1.1 Description of the weathering box test fixture and itscalculated

49、combined back and edge loss coefficient,7.1.2 Whether the solar collector cover materials are ex-posed as a single- or double-cover configuration and whetherthe test specimen was the inner or outer cover,7.1.3 Complete identification of the solar collector outercover material(s),7.1.4 Complete identification of the solar collector innercover material(s) (if any),7.1.5 A description of the test specimen attachment andmounting procedures,7.1.6 Latitude, longitude, alti

展开阅读全文
相关资源
猜你喜欢
相关搜索

当前位置:首页 > 标准规范 > 国际标准 > ASTM

copyright@ 2008-2019 麦多课文库(www.mydoc123.com)网站版权所有
备案/许可证编号:苏ICP备17064731号-1