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本文(ASTM D2187-1994(2009)e1 Standard Test Methods for Physical and Chemical Properties of Particulate Ion-Exchange Resins《粒状离子交换树脂的物理化学特性的标准试验方法》.pdf)为本站会员(boatfragile160)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 D2187-1994(2009)e1 Standard Test Methods for Physical and Chemical Properties of Particulate Ion-Exchange Resins《粒状离子交换树脂的物理化学特性的标准试验方法》.pdf

1、Designation: D2187 94 (Reapproved 2009)1Standard Test Methods forPhysical and Chemical Properties of Particulate Ion-Exchange Resins1This standard is issued under the fixed designation D2187; the number immediately following the designation indicates the year oforiginal adoption or, in the case of r

2、evision, 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.1NOTEA typo was editorially corrected in Section 47.7 in March 2010.1. Scope1.1 These test methods cover the

3、determination of thephysical and chemical properties of ion-exchange resins whenused for the treatment of water. They are intended for use intesting both new and used materials. The following thirteen testmethods are included:SectionsTest Method APretreatment 6-10Test Method BWater Retention Capacit

4、y 11-17Test Method CBackwashed and Settled Density 18-24Test Method DParticle Size Distribution 25-32Test Method ESalt-Splitting Capacity of Cation-Exchange Resins33-41Test Method FTotal Capacity of Cation-ExchangeResins42-50Test Method GPercent Regeneration of Hydrogen-Form Cation-Exchange Resins51

5、-58Test Method HTotal and Salt-Splitting Capacity ofAnion-Exchange Resins59-66Test Method IPercent Regeneration of AnionExchange Resins67-75Test Method JIonic Chloride Content of Anion-Exchange Resins76-83Test Method KCarbonate Content of Anion-Exchange Resins84-91Test Method LSulfate Content of Ani

6、on ExchangeResins92-99Test Method MTotal Anion Capacity of Anion-Exchange Resins100-1081.2 The values stated in SI units are to be regarded as thestandard. The inch-pound units given in parentheses are forinformation only.1.3 This standard does not purport to address all of thesafety concerns, if an

7、y, 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. Specific precau-tionary statements are given in Section 10.8.2. Referenced Documents2.1 ASTM

8、 Standards:2D1129 Terminology Relating to WaterD1193 Specification for Reagent WaterD1293 Test Methods for pH of WaterD2687 Practices for Sampling Particulate Ion-ExchangeMaterialsD2777 Practice for Determination of Precision and Bias ofApplicable Test Methods of Committee D19 on WaterE11 Specificat

9、ion for Woven Wire Test Sieve Cloth and TestSieves3. Terminology3.1 DefinitionsFor definitions of terms used in these testmethods refer to Terminology D1129.3.2 Definitions of Terms Specific to This Standard:3.2.1 anion-exchange materialan ion-exchange materialcapable of the reversible exchange of n

10、egatively charged ions.3.2.2 cation-exchange materialan ion-exchange materialcapable of the reversible exchange of positively charged ions.3.2.3 ion-exchange resina synthetic organic ion-exchangematerial.3.2.4 mixed beda physical mixture of anion-exchangematerial and cation-exchange material.4. Reag

11、ents4.1 Purity of ReagentsReagent grade chemicals shall 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,where such specifications are available.3Other grades

12、 may be1These test methods are under the jurisdiction of ASTM Committee D19 onWater and are the direct responsibility of Subcommittee D19.08 on Membranes andIon Exchange Materials.Current edition approved May 1, 2009. Published June 2009. Originallyapproved in 1963. Last previous edition approved in

13、 2004 as D2187 94 (2004).DOI: 10.1520/D2187-94R09.2For referenced ASTM standards, 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.3Reagent Ch

14、emicals, American Chemical Society Specifications , AmericanChemical Society, Washington, DC. For suggestions on the testing of reagents notlisted by the American Chemical Society, see Analar Standards for LaboratoryChemicals, BDH Ltd., Poole, Dorset, U.K., and the United States Pharmacopeiaand Nati

15、onal Formulary, U.S. Pharmaceutical Convention, Inc. (USPC), Rockville,MD.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.used, provided it is first ascertained that the reagent is ofsufficiently high purity to permit its use without

16、 lessening theaccuracy of the determination.4.2 Purity of Water Unless otherwise indicated, refer-ences to water shall be understood to mean Type IV reagentwater described in Specification D1193.5. Sampling5.1 Obtain a representative sample of the ion-exchangeresin in accordance with Practices D2687

17、.5.2 A minimum sample size of 1 L is recommended for acomplete testing program.TEST METHOD APRETREATMENT6. Scope6.1 This test method covers the conversion of ion-exchangeresins to a known ionic form and is intended for application toboth new and used material.7. Significance and Use7.1 The ionic for

18、m of an ion-exchange material affects bothits equivalent mass and its equilibrium water content. These inturn influence the numerical values obtained in exchangecapacity determinations, in density measurements, and in thesize of the particles. To provide a uniform basis for compari-son, therefore, t

19、he sample should be converted to a knownionic form before analysis. This procedure provides for theconversion of cation-exchange materials to the sodium formand anion-exchange materials to the chloride form prior toanalysis. These forms are chosen since they permit samples tobe weighed and dried wit

20、hout concern for air contamination ordecomposition. If other ionic forms are used this fact should benoted in reporting the results.8. Apparatus8.1 Pretreatment Apparatus (See Fig. 1):8.1.1 Column, transparent, vertically-supported, 25 6 2.5mm (1.0 6 0.1 in.) inside diameter and approximately 1500mm

21、 (60 in.) long.The bottom of the column shall be closed andprovided with an outlet of approximately 6-mm inside diam-eter. Connections shall be provided at top and bottom foradmission and removal of solutions as described in Section 10.Adequate means for measuring and regulating flow shall beprovide

22、d. Calibrate the column in such a manner that thevolume readings required by the method can be made. Make allmeasurements at 25 6 5C.8.1.2 Support, for the sample, so designed that the distancefrom the sample to the column outlet is at least 50 mm.Suggested supports are corrosion-resistant screen or

23、 porousplate.8.2 Draining Apparatus (Fig. 2):8.2.1 Buchner-Type Funnel, containing a 125-mm filterpaper and supported in a 1-L suction flask.8.2.2 Open-Arm Mercury Manometer, connected by aT-tube to a vacuum train.8.2.3 Gas-Humidifying Tower, of at least 500 mL capacity,two thirds filled with glass

24、beads or similar material.8.2.4 Vacuum Pump, capable of creating a pressure differ-ential 40 mm Hg below atmospheric pressure.9. Reagents9.1 Hydrochloric Acid (1 + 9)Carefully pour 100 mL ofhydrochloric acid (HCl, sp gr 1.19) into 900 mL of water,stirring constantly. Cool to 25 6 5C.9.2 Sodium Chlor

25、ide Solution (100 g/L)Dissolve 100.0 gof sodium chloride (NaCl) in 800 mL of water and dilute to 1L.9.3 Sodium Chloride Solution (240 g/L)Dissolve 240 g ofsodium chloride (NaCl) in 800 mL of water and dilute to 1 L.9.4 Sodium Hydroxide Solution (40 g/L)Dissolve 40.0 gof sodium hydroxide (NaOH) in 80

26、0 mL of water. Cool anddilute to 1 L.9.5 Thymol Blue Indicator SolutionDissolve 0.1 g ofthymol blue (thymol sulfonphthalein) in 10.75 mL of 0.02 NNaOH solution. Dilute to 250 mL with water.9.6 Tropaeolin O Indicator SolutionDissolve 0.10 g oftropaeolin O (p-benzene-sulfonic acid-azoresorcinol) in 50

27、 mLof water and dilute to 100 mL in a volumetric flask.10. Procedure10.1 Adjust the temperature of the water and all solutions tobe used in the procedure to 25 6 5C and maintain thistemperature throughout the test.10.2 Transfer the entire sample as received to a 2-L beakerusing water to rinse out th

28、e container. Adjust the water level tothe sample level. Let stand a minimum of 1 h. Mix thoroughlyand transfer a representative sample to fill a 400-mL beaker.FIG. 1 Typical Arrangement of Apparatus for Pretreatment of Ion-Exchange MaterialsD2187 94 (2009)1210.3 Fill the pretreatment column one half

29、 full of water.Transfer the entire contents of the 400-mL beaker to thecolumn using additional water if necessary.10.4 Backwash with water using a flow rate that willmaintain a 50 % expansion of the bed. Adjust the backwashoutlet tube to a height above the bed equal to 75 % of the bedheight. Continu

30、e backwashing for a minimum of 10 min oruntil the effluent is clear. For mixed bed samples proceed inaccordance with 10.5. For single component samples, proceedin accordance with 10.6.10.5 If the sample is a mixed bed, displace the backwashwater from the bed by slowly introducing NaCl solution (100g

31、/L) at the bottom of the column and allowing it to flowupward through the sample. When the water has been dis-placed, increase the flow rate until the anion-exchange resin isseparated from and suspended above the cation-exchangeresin. Lower the backwash outlet tube as required to siphon offthe anion

32、-exchange resin, collecting it in a separate pretreat-ment apparatus. Exercise care to prevent the removal ofcation-exchange resin in this operation. When the transfer ofthe anion-exchange resin is complete, discontinue the flow ofNaCl solution. If the separation of anion and cation-exchangeresins h

33、as not been complete and a mixed band is left in thecenter, repeat the siphoning procedure to remove this bandfrom the cation-portion of the sample. This mixed material thatshould not constitute more than 5 % of the original samplevolume, is not included in subsequent tests. If more than 5 %of the s

34、ample remains unseparated, the separation should berepeated using NaCl solution (240 g/L). In either case proceedwith the separated anion and cation components as separatesamples as described in 10.6.10.6 Allow the resin to settle until the liquid level is 20 to 30mm above the top of the bed, and es

35、timate its volume. PassNaCl solution (100 g/L) downflow through the single compo-nent sample or the separated components of the mixed bedresin at the approximate rate of 0.133 mL/min/mL of samplefor 1 h. Discontinue the flow of NaCl solution. Backwash withwater for 10 min at a flow rate sufficient t

36、o maintain a 50 %expansion of the bed. Discontinue the flow of water.10.7 Allow the bed to settle and then drain off the water ata rate of approximately 100 mL/min until the water level is 20to 30 mm above the top of the bed. Estimate the volume ofion-exchange resin in millilitres.10.8 Determine the

37、 amount of reagent and the flow raterequired for the initial pretreatment from Table 1 using thesample volume determined in 10.7. WarningSwelling of theresin in the column may occur in subsequent steps.10.9 Pass the specified volume of reagent through the bed atthe specified rate until only a 20 or

38、30 mm layer of liquidremains above the bed. Rinse the bed with two sample volumesof water at the same rate.10.10 Determine the amount of reagent and the flow raterequired for the second pretreatment from Table 2 using thesample volume determined in 10.7. Note that this secondpretreatment is not used

39、 for some methods.10.11 Pass the specified volume of reagent through a bed atthe specified rate until only a 20 to 30-mm layer of liquidremains above the bed. Rinse the bed with one sample volumeof water at the same rate. Increase the rinse rate to 100 mL/min.Rinse for 15 min. Thereafter test succes

40、sive 100-mL portionsof the effluent from anion-exchange resins by adding two dropsof thymol blue indicator solution. Continue rinsing until a 100mL portion of the effluent remains yellow (pH 2.5) on theFIG. 2 Typical Arrangement of Water-Draining ApparatusTABLE 1 Requirements for Initial Pretreatmen

41、tAnion-ExchangeResinsCation-ExchangeResinsReagent NaOH HClConcentration 40 g/L 1 + 9Volume required 8 sample volumes 8 sample volumesContact time 1 h 1 hFlow rate, mL/min-mL sample 0.133 0.133Regeneration level:lb/ft3g/L20.032021.2340D2187 94 (2009)13addition of the indicator. Test the effluent from

42、 the cation-exchange resins in the same manner with two drops oftropaeolin-O indicator solution. Continue rinsing until a100-mL portion of the effluent remains yellow (pH 11.0)3onthe addition of the indicator.10.12 Remove the ion-exchange resin from the pretreatmentcolumn, discarding any extraneous

43、material that may haveaccumulated at the bottom of the bed. Transfer the resin to theBuchner funnel of the draining apparatus that has been fittedwith a medium porosity filter paper. Drain the water to the topof the sample using suction if required. Cover the funnel witha suitable vacuum-tight cover

44、, which is fitted with an inlet forair from the water-filled humidifying tower. Apply sufficientsuction to maintain a pressure differential of 40 6 5mmHgbelow atmospheric pressure. Continue passing humidified airthrough the sample for 10 min.10.13 Transfer the entire drained sample to a clean, dry,

45、1-L(1-qt.), wide-mouthed bottle with a screw top or other vapor-tight closure.TEST METHOD BWATER RETENTION CAPACITY11. Scope11.1 This test method covers the determination of theamount of water retained by ion-exchange resins and isintended for testing both new and used materials.12. Summary of Test

46、Method12.1 This test method consists of the determination of theloss of mass on drying at 104 6 2C.13. Significance and Use13.1 The water retention capacity of an ion-exchange ma-terial is proportional to its pore volume. For new materials ofthe same functionality and polymer type, higher values ind

47、icatelower effective crosslinking. Increases in water retention ca-pacity of used materials as compared with the values for newmaterial serve as an indicator of polymer decrosslinking:decreases may indicate either loss of functionality or fouling ofthe ion-exchange material. Since the numerical valu

48、e is di-rectly dependent on the ionic form of the material, carefulpreconditioning of both original and used samples to knownionic forms as outlined in Section 7 is essential when suchcomparisons are made.14. Procedure14.1 Weigh three approximately 5-g representative samplesof material pretreated in

49、 accordance with Section 10 to thenearest 1 mg into previously tared weighing vessels.14.2 Dry the samples for 18 6 2hat1046 2C.14.3 Remove the samples from the oven. Cool 30 min in adesiccator, and reweigh.15. Calculation15.1 Calculate the water retention capacity, in percent, asfollows:water retained, % 5 A 2 B!/A 3 100 (1)where:A = amount of wet sample used, g, andB = amount of dry sample obtained, g.16. Report16.1 Report the percent water retained as the average of thethree values obtained.17. Precision and Bias417.1 PrecisionThe prec

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