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本文(ASTM D6239-2009 317 Standard Test Method for Uranium in Drinking Water by High-Resolution Alpha-Liquid-Scintillation Spectrometry《用高分辨α液体闪烁谱测量法测定饮用水中铀的标准试验方法》.pdf)为本站会员(explodesoak291)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 D6239-2009 317 Standard Test Method for Uranium in Drinking Water by High-Resolution Alpha-Liquid-Scintillation Spectrometry《用高分辨α液体闪烁谱测量法测定饮用水中铀的标准试验方法》.pdf

1、Designation: D 6239 09Standard Test Method forUranium in Drinking Water by High-Resolution Alpha-Liquid-Scintillation Spectrometry1This standard is issued under the fixed designation D 6239; the number immediately following the designation indicates the year oforiginal adoption or, in the case of re

2、vision, 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 covers determining the total solubleuranium activity in drinking water in the ran

3、ge of 0.037 Bq/L(1 pCi/L) or greater by selective solvent extraction andhigh-resolution alpha-liquid-scintillation spectrometry. The en-ergy resolution obtainable with this technique also allowsestimation of the238Uto234U activity ratio.1.2 This test method was tested successfully with reagentwater

4、and drinking water. It is the users responsibility toensure the validity of this test method for waters of untestedmatrices.1.3 The values stated in SI units are to be regarded asstandard. The values given in parentheses are for informationonly.1.4 This standard does not purport to address all of th

5、esafety 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 limitations prior to use. For specific hazardstatements, see Section 9.2. Referenced Documents2

6、.1 ASTM Standards:2D 1129 Terminology Relating to WaterD 1193 Specification for Reagent WaterD 2777 Practice for Determination of Precision and Bias ofApplicable Test Methods of Committee D19 on WaterD 3370 Practices for Sampling Water from Closed ConduitsD 3648 Practices for the Measurement of Radi

7、oactivityD 5847 Practice for Writing Quality Control Specificationsfor Standard Test Methods for Water AnalysisD 7282 Practice for Set-up, Calibration, and Quality Con-trol of Instruments Used for Radioactivity Measurements3. Terminology3.1 Definitions:3.1.1 For definitions of terms used in this tes

8、t method, referto Terminology D 1129. For terms not included in this refer-ence, refer to other published glossaries (1)34. Summary of Test Method4.1 This test method is based on solvent extraction technol-ogy to isolate and concentrate uranium in drinking water forcounting via a high-resolution alp

9、ha-liquid-scintillation spec-trometer.4.2 To determine total uranium, as well as limited isotopicuranium (238U and234U) by activity in drinking water, a200mL acidified water sample is first spiked with232Uasanisotopic tracer, boiled briefly to remove radon, and evaporateduntil less than 50 mL remain

10、. The solution is then madeapproximately 0.01 M in diethylenetriaminepentaacetic acid(DTPA) and the pH is adjusted to between 2.5 and 3.0. Thesample is transferred to a separatory funnel and equilibratedwith 1.50 mL of an extractive scintillator containing a dialkylphosphoric acid extracting agent.

11、Under these conditions onlyuranium is quantitatively transferred to the organic phase whilethe extraction of undesired ions is masked by the presence ofDTPA. Following phase separation, 1.00 mL of the organicphase is sparged with dry argon gas to remove oxygen, achemical quench agent, and counted on

12、 a high-resolutionalpha-liquid-scintillation spectrometer and multichannel ana-lyzer (MCA).4.3 The alpha spectrum of a sample that contains naturaluranium and that is analyzed with an internal232U tracer willappear similar to the spectrum in Fig. 1. An approximateresolution of 250 keV FWHM for238U (

13、4.2 MeV) allowsresolution and analysis of the238U,234U, and232U energyspectrum peaks when their activities are of the same order ofmagnitude. Resolution of the235U (4.4 MeV) alpha peak is notpossible, but its activity, which accounts for approximately2.2 % of the total natural uranium activity, is i

14、ncluded in thetotal uranium activity calculated when the238U and234U peaksare in the region of interest (ROI). When the238U and234U1This test method is under the jurisdiction of ASTM Committee D19 on Waterand is the direct responsibility of Subcommittee D19.04 on Methods of Radiochemi-cal Analysis.C

15、urrent edition approved Feb. 1, 2009. Published March 2009. Originallyapproved in 1998. Last previous edition approved in 2003 as D 6239 032.2For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer Service at serviceastm.org. For Annual Book of ASTMStandards volu

16、me information, refer to the standards Document Summary page onthe ASTM website.3The boldface numbers in parenthesis refer to the list of references at the end ofthe text.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.peaks are inte

17、grated separately, a portion of the235U activitywill be included in the238U activity and the rest in the234Uactivity, depending on the exact ROIs selected. Likewise, ifpresent,236U and233U will not be resolved by the spectrom-eter; however, their activity will be included in the totaluranium ROI. Fi

18、g. 2 is a flow chart that summarizes the stepsrequired in this test method.5. Significance and Use5.1 This test method is a fast, cost-effective method that canyield limited isotopic activity levels for238U and234U, as wellas total uranium activity. Although232U is incorporated as atracer, uranium r

19、ecoveries for this test measured during thedevelopmental work on this test method were usually between95 and 105%.5.2 The high-resolution alpha-liquid-scintillation spectrom-eter offers a constant (99.6 6 0.1) % counting efficiency andinstrument backgrounds as low as 0.001 counts per minute(min1)ove

20、ra4to7MeVenergy range according toMcDowell and McDowell (2). Count rates for extractivescintillator blanks and reagent blanks usually range from 0.01min1to 0.1 min1.6. Interferences6.1 During the development work on this method, less than1% of241Am,238Pu,210Po,226Ra,222Rn, and230Th present inthe ori

21、ginal sample were found to extract under the conditionsdescribed for the extraction of uranium by this procedure.Uranium extraction is quantitative at pH values from 1.0 to 5.0but extraction of230Th and238Pu increased slightly at pHvalues below 2.5 and phase separation was slower and lesscomplete at

22、 pH values above 3.5. DTPA concentration is notcritical in the range of 0.001 M to 0.1 M as long as astoichiometric excess relative to the concentration of interfer-ing ions, especially ferric ion (Fe3+), is maintained.As much as30 mg of Fe3+did not interfere with the extraction of uraniumwhen the D

23、TPA concentration was 0.010 M, and as much as250 mg of Fe3+did not interfere when the DTPAconcentrationwas increased to 0.10 M. As much as 2000 mg of calcium ion(Ca2+) did not present an interference in a 0.010 M DTPAsolution. Sulfate ion (SO42-) did not interfere with the extrac-tion of uranium at

24、concentrations as high as 1 M, but hydrogenoxalate (HC2O4) concentrations greater than 0.001 M anddihydrogen phosphate (H2PO4) concentrations greater than0.2 M resulted in decreased uranium recovery. These concen-trations, however, are several orders of magnitude higher thanthe normal concentration

25、of these ions in drinking water.6.2 Beta- and gamma-emitting radionuclide interference isminimized (typically 99.95 % rejection of beta/gamma pulses)according to McDowell and McDowell (2) by the pulse-shapediscrimination of the high-resolution alpha-liquid-scintillationspectrometer.6.3 Quenching, of

26、ten a problem with liquid scintillationcounting, is significantly reduced by the use of extractivescintillator technology and will only result in a normallyinsignificant spectral energy shift with this procedure. No alphacounts will be lost due to quenching.6.4234U and238U may exist in the232U trace

27、r.The extent ofthe positive bias should be determined periodically.7. Apparatus7.1 Caps, vinyl or cork for culture tubes.7.2 Funnels, separatory, 125-mL, pear-shaped, polytet-rafluoroethylene or polypropylene.7.3 Meter, pH, with gel electrode or low leak-rate referenceelectrode.7.4 Multichannel Anal

28、yzer (MCA), 512 channels or more,ADC/memory or better.7.5 NIM Bin and Power Supply.7.6 Power Supply, high voltage (+1000 V 1 mA), orintegral to the spectrometer, see item 7.10.7.7 Sample, counting reference, normal uranium.4Thiscounting reference sample is an approximately 50/50 mix of238U and234U b

29、y activity in 1.00 mL of the extractivescintillator solution and enclosed in a 10 by 75 mm glassculture tube and is for standardization purposes only.7.8 Source,137Cs, approximately 1.85 3 105Bq (5 Ci).This item is for standardization purposes only.7.9 Sparging Gas Conditioner5This apparatus provide

30、sconditioned argon gas to remove oxygen, a chemical quenchagent, from the sample, thus improving pulse shape discrimi-nation and energy resolution. It consists of a specially-madeglass tube, partially filled with silicone oil, that serves as apressure-limiter, a gas drying tower filled with CaSO4(6

31、to 8mesh) for additional drying of the argon gas, a gas washingbottle containing toluene and molecular sieve to saturate the4The sole source of supply of the238U and234U normal uranium countingreference sample known to the committee at this time is from ORDELA, Inc., 1009Alvin Weinberg Drive, Oak Ri

32、dge, TN, 37830. If you are aware of alternativesuppliers, please provide this information to ASTM Headquarters. Your commentswill receive careful consideration at a meeting of the responsible technicalcommittee that you may attend.5The sole source of supply of the sparging gas conditioner known to t

33、hecommittee at this time is ORDELA, Inc., 1009 Alvin Weinberg Drive, Oak Ridge,TN, 37830. If you are aware of alternative suppliers, please provide this informationto ASTM Headquarters. Your comments will receive careful consideration at ameeting of the responsible technical committee that you may a

34、ttend.FIG. 1 Alpha Energy Spectrum of Natural Uranium and232UTracer Measured on a High-Resolution Alpha-Liquid-ScintillationSpectrometerD6239092argon with toluene and prevent sample evaporation whiledeoxygenating, and plastic tubing of various lengths to serve asconnections between the pieces. The i

35、nlet from the compressedargon cylinder is connected to one side arm of the pressurelimiter; the opposite side arm of the pressure limiter isconnected to the inlet (bottom) of the gas drying tower. Theoutlet (top) of the drying tower is connected to the inlet(dispersion tube) of the gas washing bottl

36、e. The outlet of thegas washing bottle is connected to a disposable Pasteur pipetthat serves as the sparging lance for the sample. For furtherinformation, consult the spectrometer (see 7.10) instructionmanual.7.10 Spectrometer, high-resolution pulse-shape discriminat-ing alpha-liquid-scintillation s

37、pectrometer. Typical perfor-mance specifications include greater than 99 % alpha countingefficiency, 99.95 % beta/gamma rejection, energy resolution of200 to 250 keV FWHM for the 4.78 MeV226Ra spectrum peakand instrument backgrounds of 0.001 counts per minute over a4 to 7 MeV energy range.67.11 Tube

38、s, 10 by 75 mm borosilicate glass. These tubesserve as sample-counting cells for the spectrometer (see 7.10).6The sole source of supply of the spectrometer known to the committee at thistime is ORDELA, Inc., 1009 Alvin Weinberg Drive, Oak Ridge, TN, 37830. If youare aware of alternative suppliers, p

39、lease provide this information to ASTMHeadquarters. Your comments will receive careful consideration at a meeting of theresponsible technical committee that you may attend.FIG. 2 Flow Chart Summary of this Test MethodD62390938. Reagents and Materials8.1 Purity of ReagentsReagent grade chemicals shal

40、l beused in all tests. Unless otherwise indicated, it is intended thatall reagents shall conform to the specifications of the Commit-tee on Analytical Reagents of the American Chemical Society(3). Other grades may be used, provided it is first ascertainedthat the reagent is of sufficiently high puri

41、ty to permit its usewithout lessening the accuracy of the determination.8.2 Purity of WaterUnless otherwise indicated, referencesto water shall be understood to mean reagent water conformingto Specification D 1193, Type III, or better.8.3 Argon Gas, Compressed99.999 % pure, with two-stage pressure r

42、egulator.8.4 Ascorbic AcidReagent grade, solid ascorbic acid(C6H8O6).8.5 Dialkyl Phosphoric Acid Extractive ScintillatorSeeRef (4).78.6 Diethylenetriaminepentaacetic Acid (DTPA)(0.1 M)Add 3.93 g of solid DTPA (C14H23N3O10) to 50 mL of water.Adjust the pH approximately 7 by the dropwise addition of 6

43、M sodium hydroxide (NaOH) while stirring to completedissolution. Dilute to 100 mL with water.8.7 Hydrochloric Acid (sp gr 1.19)Concentrated hydro-chloric acid (HCl).8.8 Molecular SieveType 4A, activated, indicating, 4-8mesh (Na12AlO2)12(SiO2)12xH2O).8.9 Nitric Acid (sp gr 1.42)Concentrated nitric ac

44、id(HNO3).8.10 Sodium Hydroxide (6 M)Slowly and with coolingadd 240 g sodium hydroxide (NaOH) pellets to 500 mL ofwater and stir to dissolve. Dilute to 1 L with water.8.11 TolueneReagent grade (C6H5CH3).8.12232U Solution, StandardNominally 0.04 Bq/mL ac-tivity and standardized as per Practice D 3648.

45、9. Hazards9.1 Use extreme caution when handling all acids and bases.They are extremely corrosive and skin contact could result insevere burns.9.2 When diluting concentrated acids, always use safetyglasses and protective clothing, and add the acid to the water.9.3 Toluene is flammable.Avoid breathing

46、 vapors. Use withadequate ventilation and avoid open flames.10. Sampling10.1 Collect the sample in accordance with the applicablemethods as described in Practice D 3370.11. Calibration and Standardization11.1 Use a normal uranium counting reference sample (thatconsists of an approximate 50/50 mixtur

47、e of238U and234U, byactivity) to establish an initial region of interest (ROI) on themultichannel analyzer (MCA).NOTE 1The actual ROI for any given sample may differ slightly fromthis initial ROI setting depending on the nature of the sample and theextractive scintillator used. This reference sample

48、 may be made using thetechniques cited in Burnett and Tai (5). Set the pulse shape discriminator(PSD) of the high-resolution alpha-liquid-scintillation spectrometer priorto counting each individual sample.A1.85 3 105Bq (5 microcurie)137Csgamma source may be used to aid in setting the PSD by quickly

49、inducinga beta/gamma peak (4). For additional information, refer to the instrumentinstruction manual.NOTE 2Setting the pulse shape discriminator (PSD) is a quick, butcritical procedure. Inaccurate activity determinations will result if the PSDis set improperly.11.2 Areagent blank is prepared without tracer for use in thebackground subtraction count (BSC). The reagent blank usedfor the BSC must closely match the associated sample testsource configuration to ensure that the measurements used forbackground subtraction accurately reflect conditions whencount

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