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本文(ASTM D1252-2006(2012)e1 Standard Test Methods for Chemical Oxygen Demand (Dichromate Oxygen Demand) of Water《水的化学需氧量(重铬酸盐需氧量)标准试验方法》.pdf)为本站会员(dealItalian200)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 D1252-2006(2012)e1 Standard Test Methods for Chemical Oxygen Demand (Dichromate Oxygen Demand) of Water《水的化学需氧量(重铬酸盐需氧量)标准试验方法》.pdf

1、Designation: D1252 06 (Reapproved 2012)1Standard Test Methods forChemical Oxygen Demand (Dichromate Oxygen Demand) ofWater1This standard is issued under the fixed designation D1252; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, t

2、he 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.This standard has been approved for use by agencies of the Department of Defense.1NOTEEditorial corrections made throug

3、hout in June 2013.1. Scope1.1 These test methods cover the determination of thequantity of oxygen that certain impurities in water willconsume, based on the reduction of a dichromate solutionunder specified conditions. The following test methods areincluded:Test Method A 2 Macro COD by Reflux Digest

4、ion and TitrationTest Method B 2 Micro COD by Sealed Digestion and Spectrometry1.2 These test methods are limited by the reagents employedto a maximum chemical oxygen demand (COD) of 800 mg/L.Samples with higher COD concentrations may be processed byappropriate dilution of the sample. Modified proce

5、dures ineach test method (Section 15 for Test MethodAand Section 24for Test Method B) may be used for waters of low CODcontent ( 50 mg/L).1.3 As a general rule, COD results are not accurate if thesample contains more than 1000 mg/LCl. Consequently, thesetest methods should not be applied to samples

6、such asseawaters and brines unless the samples are pretreated asdescribed in Appendix X1.1.4 This test method was used successfully on a standardmade up in reagent water. It is the users responsibility toensure the validity of these test methods for waters of untestedmatrices.1.5 This standard does

7、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 limitations prior to use. For specific hazardstatements, see Se

8、ction 8, 15.6, and 24.5.2. Referenced Documents2.1 ASTM Standards:2D1129 Terminology Relating to WaterD1193 Specification for Reagent WaterD2777 Practice for Determination of Precision and Bias ofApplicable Test Methods of Committee D19 on WaterD3223 Test Method for Total Mercury in WaterD3370 Pract

9、ices for Sampling Water from Closed ConduitsD5905 Practice for the Preparation of Substitute WastewaterE60 Practice for Analysis of Metals, Ores, and RelatedMaterials by SpectrophotometryE275 Practice for Describing and Measuring Performance ofUltraviolet and Visible Spectrophotometers3. Terminology

10、3.1 DefinitionsFor definitions of other terms used in thesetest methods, refer to Terminology D1129.3.2 The term “oxygen demand” (COD) in these test meth-ods is defined in accordance with Terminology D1129 asfollows:3.2.1 oxygen demandthe amount of oxygen required un-der specified test conditions fo

11、r the oxidation of water borneorganic and inorganic matter.4. Summary of Test Methods4.1 Most organic and oxidizable inorganic substances pres-ent in water are oxidized by a standard potassium dichromatesolution in 50 % sulfuric acid (vol/vol). The dichromateconsumed (Test Method A) or tri-valent ch

12、romium produced(Test Method B) is determined for calculation of the CODvalue.4.2 The oxidation of many otherwise refractory organics isfacilitated by the use of silver sulfate that acts as a catalyst inthe reaction.1These test methods are under the jurisdiction of ASTM Committee D19 onWater and are

13、the direct responsibility of Subcommittee D19.06 on Methods forAnalysis for Organic Substances in Water.Current edition approved June 15, 2012. Published June 2012. Originallyapproved in 1953. Last previous edition approved in 2006 as D1252 06. DOI:10.1520/D1252-06R12E01.2For referenced ASTM standar

14、ds, visit the ASTM website, www.astm.org, orcontact ASTM Customer Service at serviceastm.org. For Annual Book of ASTMStandards volume information, refer to the standards Document Summary page onthe ASTM website.Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 1

15、9428-2959. United States14.3 These test methods provide for combining the reagentsand sample in a manner that minimizes the loss of volatileorganic materials, if present.4.4 The oxidation of up to 1000 mg/L of chloride ion isinhibited by the addition of mercuric sulfate to form stable andsoluble mer

16、curic sulfate complex.Atechnique to remove up to40 000 mg/L chloride is shown in Appendix X1 for TestMethod B. The maximum chloride concentration that may betolerated with the procedure for low COD, Test Method A(15.10), has not been established.4.5 The chemical reaction involved in oxidation of mat

17、erialsby dichromate is illustrated by the following reaction withpotassium acid phthalate (KC8H5O4):41 H2SO4110 K2Cr2O712KC8H5O410 Cr2SO4!3111 K2SO4116 CO2146 H2OSince 10 mol of potassium dichromate has the same oxida-tion power as 15 mol of oxygen, the equivalent reaction is:2KC8H5O4115 O21H2SO416

18、CO216H2O1K2SO4Thus 2 mol of potassium acid phthalate consumes 15 mol ofoxygen. The theoretical COD of potassium acid phthalate is1.175 g of oxygen per gram of potassium acid phthalate (Table1).5. Significance and Use5.1 These test methods are used to chemically determine themaximum quantity of oxyge

19、n that could be consumed bybiological or natural chemical processes due to impurities inwater. Typically this measurement is used to monitor andcontrol oxygen-consuming pollutants, both inorganic andorganic, in domestic and industrial wastewaters.5.2 The relationship of COD to other water quality pa

20、ram-eters such as TOC and TOD is described in the literature.36. Interference and Reactivity6.1 Chloride ion is quantitatively oxidized by dichromate inacid solution. (1.0 mg/Lof chloride is equivalent to 0.226 mg/Lof COD.) As the COD test is not intended to measure thisdemand, concern for chloride

21、oxidation is eliminated up to1000 mg/L of chloride by complexing with mercuric sulfate.6.1.1 Up to 40 000 mg/L chloride ion can be removed witha cation based ion exchange resin in the silver form asdescribed in Appendix X1 when using Test Method B. Sincethis pretreatment was not evaluated during the

22、 interlaboratorystudy, the user of the test method is responsible to establish theprecision and bias of each sample matrix.6.2 Oxidizable inorganic ions, such as ferrous, nitrite,sulfite, and sulfides are oxidized and measured as well asorganic constituents.7. Reagents7.1 Purity of ReagentsReagent g

23、rade chemicals shall beused in all tests.All reagents shall conform to the specificationsof the Committee on Analytical Reagents of the AmericanChemical Society, where such specifications are available.47.2 Purity of Water Unless otherwise indicated, referenceto water shall be understood to mean rea

24、gent water that meetsthe purity specifications of Type I or Type II water, presentedin D1193.8. Hazards8.1 Exercise extreme care when handling concentrated sul-furic acid, especially at the start of the refluxing step (15.7).8.2 Silver sulfate is poisonous; avoid contact with thechemical and its sol

25、ution.8.3 Mercuric sulfate is very toxic; avoid contact with thechemical and its solution.9. Sampling9.1 Collect the sample in accordance with Practices D3370.9.2 Preserve samples by cooling to 4C if analyzed within24 h after sampling, or preserve for up to 28 days at 4C and3Handbook for Monitoring

26、Industrial Wastewater, U.S. Environmental Protec-tion Agency, Aug. 1973, pp. 5-10 to 5-12.4Reagent Chemicals, American Chemical Society Specifications, AmericanChemical Society, Washington, DC. For suggestions on the testing of reagents notlisted by the American Chemical Society, see Analar Standard

27、s for LaboratoryChemicals, BDH Ltd., Poole, Dorset, U.K., and the United States Pharmacopeiaand National Formulary, U.S. Pharmaceutical Convention, Inc. (USPC), Rockville,MD.TABLE 1 Test Method A, Recovery of Theoretical COD forVarious Organic MaterialComponentReactivity, Percent of Theoretical1A2B3

28、C4D5EAliphatic CompoundsAcetone 98 . 96 94 .Acetic acid 92 92 98 . .Acrolein 62 . . . .Butyric acid 89 93 . . .Dextrose 95 . . . .Diethylene glycol 93 . . 70 .Ethyl acetate 95 . . 85 .Methyl ethyl ketone 98 . . 90 .Aromatic CompoundsAcetophenone 89 . . . .Benzaldehyde . . . 80 .Benzene 6098 . 41 . .

29、Benzoic acid 98 . . 100 .Dioctyl phthalate 83 . . . .Diphenyl 81 . . . .o-cresol 95 . . 95 .Toluene 83 . . 45 .Potassium acidphthalate100 . . . .Nitrogen CompoundsAcrylonitrile 48 . . 44 .Adenine . . . . 59Aniline 80 . . 74 .Butyl amine 57 . . . .Pyridine 0 . 1 . 2Quinoline . . . . 87Trimethylamine

30、1 . . . .Tryptophane . . . . 87Uric acid . . . . 61AHamilton, C. E., unpublished data.BMoore, W. A., and Walker, W. W., Analytical Chemistry, Vol 28, 1956, p. 164.CDobbs, R. A., Williams, R. T., ibid., Vol 35, 1963 p. 1064.DBuzzell, J. C., Young, R. H. F., and Ryckman, D. W.,“ Behaviors of OrganicCh

31、emicals in the Aquatic Environment; Part II, Dilute Systems,” ManufacturingChemists Association, April 1968, p. 34.EChudoba, J., and Dalesicky, J., Water Research, Vol 7, No. 5, 1973, p. 663.D1252 06 (2012)12atpH2byaddition of concentrated sulfuric acid. Theaddition of 2 mL of concentrated sulfuric

32、acid per litre at thetime of collection will generally achieve this requirement. Theactual holding time possible without significant change in theCOD may be less than 28 days, especially when easilyoxidizable substances are present. It is the responsibility of theusers of the test method to ensure t

33、he maximum holding timefor their samples.TEST METHOD AMACRO COD BY REFLUX DIGESTION AND TITRATION10. Scope10.1 The amount of dichromate consumed in Test MethodAis determined by titration rather than the spectrophotometricprocedure used in Test Method B. This test method is appro-priate where larger

34、sample volumes would provide betterprecision and better representativeness of where equipment orspace limitations exist.10.2 The precision of this test method in standard solutionscontaining low-volatility organic compounds has been exam-ined in the range of approximately 10 to 300 mg/L.11. Summary

35、of Test Method11.1 The sample and standardized dichromate solution, in a50 % by volume sulfuric solution, is refluxed for a 2-hdigestion period.11.2 Excess dichromate after the digestion period is titratedwith a standard ferrous ammonium sulfate solution usingortho-phenanthroline ferrous complex as

36、an internal indicator.12. Interferences12.1 The test method does not uniformly oxidize all organicmaterials. Some compounds, for example, are quite resistant tooxidation, while others, such as carbohydrates, are easilyoxidized. A guide to the behavior of various types of organicmaterials is provided

37、 in Table 1.12.2 Volatile organics that are difficult to oxidize may bepartially lost before oxidation is achieved. Care in maintaininga low-solution temperature (about 40C) and permitting oxi-dation to proceed at the lower temperature for a period of timebefore reflux is initiated will result in hi

38、gher recoveries oftheoretical COD of volatile organics.13. Apparatus13.1 Reflux Apparatus The apparatus consists of a500-mL Erlenmeyer or a 300-mL round-bottom flask, made ofheat-resistant glass connected to a 300-mm (12-in.) Allihncondenser by means of a ground-glass joint. Any equivalentreflux app

39、aratus may be substituted, provided that a ground-glass connection is used between the flask and the condenser,and provided that the flask is made of heat-resistant glass.13.2 Sample Heating ApparatusA heating mantle or hotplate capable of delivering sufficient controlled heat to main-tain a steady

40、reflux rate in the reflux apparatus is satisfactory.13.3 Apparatus for Blending or Homogenizing SamplesAhousehold blender is satisfactory.14. Reagents14.1 Ferrous Ammonium Sulfate Solution (0.25 N)Dissolve 98.0 g of ferrous ammonium sulfate solution(FeSO4(NH4)SO46H2O) in water. Add 20 mL of sulfuric

41、 acid(H2SO4, sp gr 1.84), cool and dilute to 1 L. Standardize thissolution daily before use. To standardize, dilute 25.0 mL of0.25 N potassium dichromate solution (K2Cr2O7) to about 250mL. Add 20 mL of sulfuric acid (sp gr 1.84) and allow thesolution to cool. Titrate with the ferrous ammonium sulfat

42、esolution to be standardized, using the phenanthroline ferroussulfate indicator as directed in 15.10. Calculate the normalityas follows:N 5 A 3B!/Cwhere:N = normality of the ferrous ammonium sulfate solution,A = potassium dichromate solution, mL,B = normality of the potassium dichromate solution, an

43、dC = ferrous ammonium sulfate solution, mL.14.2 Ferrous Ammonium Sulfate Solution (0.025 N)Dilute 100 mL of 0.25 N ferrous ammonium sulfate solution to1 L. Standardize against 0.025 N potassium dichromate solu-tion as in 14.1. This solution is required only if COD isdetermined in the range of 10 to

44、50 mg/L.14.3 Mercuric Sulfate Powdered mercuric sulfate(HgSO4).14.4 Phenanthroline Ferrous Sulfate Indicator SolutionDissolve 1.48 g of 1,10-(ortho)-phenanthroline monohydrate,together with 0.70 g of ferrous sulfate (FeSO47H2O), in 100mL of water. This indicator may be purchased already pre-pared.14

45、.5 Potassium Acid Phthalate Solution, Standard (1mL = 1 mg COD)Dissolve 0.851 g of potassium acid phtha-late (KC8H5O4), primary standard, in water and dilute to 1 L.14.6 Potassium Dichromate Solution, Standard (0.25 N)Dissolve 12.259 g of potassium dichromate (K2Cr2O7) primarystandard grade, previou

46、sly dried at 103C for 2 h, in water anddilute to 1 L in a volumetric flask.14.7 Potassium Dichromate Solution, Standard (0.025 N)Dilute 100.0 mL of 0.25 N potassium dichromate solution to 1L. This solution is necessary only for determination of COD inthe range of 10 to 50 mg/L.14.8 Sulfuric Acid-Sil

47、ver Sulfate SolutionDissolve 15 g ofpowdered silver sulfate (Ag2SO4) in 300 mL of concentratedsulfuric acid (sp gr 1.84) and dilute to 1 L with concentratedsulfuric acid (sp gr 1.84).15. Procedure15.1 Homogenize the sample by blending if necessary.Place 50.0 mLof the sample in a reflux flask. If les

48、s than 50 mLD1252 06 (2012)13of the sample is used, make up the difference in water, then addthe sample aliquot and mix. Samples containing more than 800mg/LCOD are diluted and mixed precisely with water and 50.0mL of the diluted sample are placed in a reflux flask.NOTE 1If the sample is diluted, it

49、 must consume at least 5 mL ofdichromate. Dilute the sample if more than 20 mL of the titrant is neededto reach the endpoint.15.2 Place 50 mL of water in a reflux flask for the blankdetermination.15.3 Place the reflux flasks in an ice bath and add1gofpowdered mercuric sulfate, 5.0 mL of concentrated sulfuricacid, and several glass beads or boiling stones. Mix well tocomplete dissolution.15.4 With the flasks still in the ice bath, add slowly and withstirring, 25.0 mL of 0.25 N standard potassium dichromatesolution.15.5 With the flasks still in th

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