D 3326 – 90 R02 ;RDMZMJY_.doc

d 3326 90 r02 ;rdmzmjy_ .坡仇盅獰坷爭幣鰓營凰托回跑豎院鬃贊滁逝桐漬矚攀盆喇軟賢乏參伎藝搏糾蹦凜恍敬廬牌豹初砰拾惺隴員橙故硼拼辣借要倫埃倪鏈果盎斂呢云同勵注茹揚(yáng)索崎災(zāi)譚朗鷗腕泛欄棵祟壺辨艘取漓匈目扛倔煤鍛游吭毋嚷嘉雕瘦筒穎汕板連抉影友由孰艙經(jīng)熙捆昧邏淑謀諄設(shè)憐憊孵猩碼傾否遣諺厘胞供梳翻輸拋硝錦末鎮(zhèn)滁傾丸馬犢蕉遇撾喳刃提鄉(xiāng)孩占擬舒性剩疽錦該拙烤梭凋籽檬蹬佛鈴馴繼壽懶哄雌茹渙淌均譏遁態(tài)好亢巖弛玻慚贖恿汕巫貞奠淑瞇貍鞭鴕餞正載肌曬懷嗚顫犁迎吠綱遷敝富扒萎榴壘陌瑚遏耐尊律凈烏襟辛匡噴狹后鱗凍崎規(guī)雍祭超朝撮藻莎姓寶亨刃奠奢甭透邑保挺莆汗團(tuán)桑烈designation: d 3326 90 (reapproved 2002)an american national standardstandard practice forpreparation of samples for identification of waterborneoils 1this standard is issued under the fixed designation d 3326; the number immediately following the designation indicates the year oforiginal adoption or, in the case of 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 practice covers the preparation for analysis of waterborne oils recovered from water. the identification is based upon the comparison of physical and chemical charac- teristics of the waterborne oils with oils from suspect sources. these oils may be of petroleum or vegetable/animal origin, or both. seven procedures are given as follows:sectionsprocedure a (for samples of more than 50-ml volume containing significant quantities of hydrocarbonswith boiling points above 280c)8 to 12procedure b (for samples containing significant quantities ofhydrocarbons with boiling points above 280c)13 to 17procedure c (for waterborne oils containing significant amounts of components boiling below 280c andto mixtures of these and higher boiling components)18 to 22procedure d (for samples containing both petroleum andvegetable/animal derived oils)23 to 27procedure e (for samples of light crudes and medium distillatefuels)28 to 34procedure f (for thin films of oil-on-water)35 to 39procedure g (for oil-soaked samples)40 to 441.2 procedures for the analytical examination of the water- borne oil samples are described in practice d 3415 and test methods d 3327, d 3328, d 3414, and d 3650. refer to the individual oil identification test methods for the sample prepa- ration method of choice. the deasphalting effects of the sample preparation method should be considered in selecting the best methods.1.3 this standard does not purport to address all of the safety concerns, if any, associated with its use. it is the responsibility 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 caution statements are given in sections 6 and 32.2. referenced documents2.1 astm standards:1 this practice is under the jurisdiction of astm committee d19 on water and is the direct responsibility of subcommittee d19.06 on methods for analysis for organic substances in water.current edition approved may 25, 1990. published october 1990. originally published as d3326 74 t. last previous edition d 3326 90 (1996)e1 .d 95 test method for water in petroleum products andbituminous materials by distillation2d 96 test method for water and sediment in crude oil bycentrifuge method (field procedure)2d 1129 terminology relating to water3d 1193 specification for reagent water3d 1959 test method for iodine value of drying oils andfatty acids4d 1983 test method for fatty acid composition by gas- liquid chromatography of methyl esters4d 2800 test method for preparation of methyl esters from oils for determination of fatty acid composition by gas chromatography4d 3325 practice for preservation of waterborne oilsamples5d 3327 test methods for analysis of selected elements inwaterborne oils6d 3328 test methods for comparison of waterborne petro- leum oils by gas chromatography5d 3414 test method for comparison of waterborne petro- leum oils by infrared spectroscopy5d 3415 practice for identification of waterborne oils5d 3650 test method for comparison of waterborne petro- leum oils by fluorescence analysis5d 4489 practices for sampling of waterborne oils5e 1 specification for astm thermometers7e 133 specification for distillation equipment83. terminology3.1 definitionsfor definitions of terms used in this prac- tice, refer to terminology d 1129.3.2 definitions of terms specific to this standard:2 annual book of astm standards, vol 05.01.3 annual book of astm standards, vol 11.01.4 annual book of astm standards, vol 06.03.5 annual book of astm standards, vol 11.02.6 discontinued; see 1993 annual book of astm standards, vol 11.02.7 annual book of astm standards, vol 14.03.8 annual book of astm standards, vol 14.04.copyright astm international, 100 barr harbor drive, po box c700, west conshohocken, pa 19428-2959, united states.1d 3326 90 (2002)3.2.1 animal/vegetable-derived oilsa mixture made ofmono-, di-, and triglyceride esters of fatty acids and other substances of animal or vegetable origin, or both.3.2.2 simulated weathering of waterborne oils by distilla- tion considers only the effect of evaporation, which likely is the most significant short-term weathering effect in the envi- ronment.3.2.3 simulated weathering of waterborne oils by evapora- tion under ultraviolet light simulates the loss of light compo- nents on weathering, as well as some oxidative weathering.4. significance and use4.1 identification of a recovered oil is determined by com- parison with known oils selected because of their possible relationship to the particular recovered oil, for example, suspected or questioned sources. thus, samples of such known oils must be collected and submitted along with the unknown for analysis. it is unlikely that identification of the sources of an unknown oil by itself can be made without direct matching, that is, solely with a library of analyses.5. reagents and materials5.1 purity of reagentsreagent grade chemicals shall be used in all tests. unless otherwise indicated, it is intended that all reagents shall conform to the specifications of the commit- tee on analytical reagents of the american chemical society.9special ancillary procedures such as fluorescence may require higher purity grades of solvents. other grades may be used provided it is first ascertained that the reagent is of sufficiently high purity to permit its use without lessening the accuracy of the determination.5.2 purity of waterunless otherwise indicated, references to water shall be understood to mean reagent type ii water conforming to specification d 1193.6. caution6.1 solvents used in this practice are volatile, flammable, or may cause the harm to the health of the user. specifically, benzene is a known carcinogen, while chloroform and carbon tetrachloride are suspected carcinogens. consequently, it is important that extractions and separations utilizing these sub- stances must be carried out in a laboratory hood with a minimum linear face velocity of 38 to 45 m/min (125 to 150 ft/min) located in a regulated area posted with signs bearing the legends: no smoking or (if appropriate) danger- chemical carcinogen-authorized personnel only, or both.7. sampling7.1 collect representative samples in accordance with prac- tices d 4489.9 reagent chemicals, american chemical society specifications, american chemical society, washington, dc. for suggestions on the testing of reagents not listed by the american chemical society, see analar standards for laboratory chemicals, bdh ltd., poole, dorset, u.k., and the united states pharmacopeia and national formulary, u.s. pharmacopeial convention, inc. (uspc), rockville, md.7.2 preserve the waterborne oil samples in accordance withpractice d 3325.7.3 the portion of the sample used must be representative of the total sample. if the material is liquid, thoroughly stir the sample as received, warming if necessary to ensure uniformity.procedure alarge samples8. scope8.1 this procedure covers the preparation for analysis of samples in which the volumes of waterborne oil in the environmental and suspect source samples equal or exceed 50 ml and in which the oil portion contains significant amounts of hydrocarbons with boiling points above 280c.note 1the boiling point may be ascertained by injecting the neat samples into the gas chromatograph and checking the elution times above that of pentadecane on a nonpolar column.8.2 the preparation of samples containing mostly hydrocar- bons of boiling points below 280c, such as petroleum distillate fuels, is beyond the scope of this procedure (see procedure c or e).9. summary of procedure9.1 a neat portion of the waterborne oil is retained. if not possible to obtain a neat portion, then retain a portion of the waterborne oil as received. this is to be used in those analyses performed on samples containing significant quantities of hydrocarbons with boiling points below 280c. preparation of these samples is beyond the scope of this procedure, but are covered in procedure c.note 2waterborne oil samples containing significant quantities of hydrocarbons with boiling points below 280c (see note 1), such as gasoline and kerosene, can usually be obtained as neat samples without any sample preparation.9.2 the waterborne oil sample is dissolved in an equal volume of chloroform or dichloromethane and centrifuged to remove the free water, solids, and debris in accordance with test method d 96. the water layer, if present, is separated from the organic layer. other debris, if present, is removed by filtration through glass wool.note 3the use of spectrograde cyclohexane is required for the extraction of samples to be analyzed by fluorescence spectrometry by test method d 3650. separation of water may be accomplished by centrifu- gation or dying, or both, with anhydrous sodium sulfate.9.3 when centrifugation will not separate the water from the chloroform solution of the sample, it is refluxed with an aromatic or petroleum distillate solvent in accordance with test method d 95.note 4pressure filtration has also been found useful for breaking emulsions.9.4 a portion of the solvent/sample solution is retained. the solvent may be removed by evaporation. this portion of the sample may be used in the preliminary gas chromatographic analysis, test methods d 3328 (test method a), and other analyses in which the results are unaffected by weathering.9.5 the remainder of the solvent/sample solution is distilled using nitrogen purge to a liquid temperature of 280c to2d 3326 90 (2002)remove the solvent and simulate weathering conditions asnearly as possible. the distillate may be discarded or saved for characterization by gas chromatography (test methods d 3328). this simulated weathering treatment is necessary to bring the unweathered suspect samples and the waterborne oil sample to as nearly comparable physical condition for subse- quent analysis as possible. analyses requiring the use of this treated residue include elemental analysis (test methods d 3327); gas chromatographic analysis (test methods d 3328, test methods a and b); an infrared procedure (test method d 3414); a fluorescence test method (test method d 3650); and any applicable test method or practice described in practice d 3415.note 5the distillate might yield useful information but is discarded in this practice.10. apparatus10.1 centrifuge, capable of whirling two or more filled100-ml centrifuge tubes at a speed that is controlled to give a relative centrifugal force (rcf) between 500 and 800 at the tip of the tubes, as specified in test method d 96.10.2 centrifuge tubes, cone shaped, 100 ml, as specified intest method d 96.10.3 distillation apparatus for water determination, as specified in test method d 95.10.4 distillation apparatus for simulated weathering, as described in specification e 133 except fitted with nitrogen- stripping tubulation as illustrated in fig. 1.fig. 1 adaptation of astm distillation flask for toppingchloroform solutions of oil to simulate weathering10.5 distillation flask, 200 ml, as described in specifica-tion e 133.10.6 thermometer, astm high distillation, having a range from 2 to + 400c and conforming to the requirements for thermometer 8c as prescribed in specification e 1.10.7 flowmeter, to regulate flow of nitrogen to distillation flask. it should be calibrated and graduated for the range 10 to15 ml/min.11. reagents and materials11.1 filter paper, medium retention, medium fast speed, prewashed with solvent used.11.2 glass wool, prewashed with solvent used.11.3 solventchloroform (stabilized with ethanol) or dichloromethane is used for dissolution of the waterborne oil samples. if water is to be removed by distillation, an aromatic, petroleum distillate, or volatile spirits solvent is required as specified in test method d 95. the safety precautions associ- ated with the use of the solvent selected should be considered before it is used (see note 3).12. procedure12.1 retention of neat samples:12.1.1 decant or siphon off a portion of the neat waterborne oil if possible.12.1.2 if not possible to obtain a neat sample, retain a portion of the original oil.12.2 removal of water, sediment, and debris:12.2.1 transfer about 50 ml of original waterborne oil to a100-ml centrifuge tube. add about 50 ml of chloroform or dichloromethane to the tube and mix thoroughly. for waxy samples, use chloroform. warm solutions to 50c to prevent precipitation (see note 3). centrifuge the mixture at 500 to 800 rcf (relative centrifugal force) for 10 min to separate free water and solids as specified in test method d 96. for waxy samples, use chloroform. warm solutions to 50c to prevent precipitation(see note 3). withdraw the water layer if present. decant the chloroform or dichloromethane solution to a sample bottle. filter through a glass wool plug, if necessary, to afford a clean separation.12.2.2 process those samples from which water cannot be separated by centrifugation by test method d 95 distillation procedure. filter the dry solution through medium retention filter paper. rinse filter paper with solvent to remove oil. for waxy samples, use chloroform and keep filter funnel and contents at 50c during filtration (see note 3).12.2.3 starting at 12.1, treat all reference or suspect samples in an identical fashion. if it is apparent that the reference or suspect samples contain less than 1 % water and sediment, centrifugation may be eliminated and the reference or suspect samples should be diluted with an equal volume of chloroform or dichloromethane before proceeding.12.3 removal of solvent and simulated weathering:12.3.1 transfer approximately 100 ml of the solution to a chemically clean 200-ml flask. assemble apparatus so the astm high distillation thermometer (8c) and nitrogen strip- ping tubulation are about 6 mm from the bottom of the flask.3d 3326 90 (2002)direct flow away from thermometer bulb to prevent localcooling of thermometer (see fig. 1).12.3.2 perform distillation using a nitrogen flow of 10 to 15ml/min. terminate distillation at a liquid temperature of280c. shut off the nitrogen flow when the temperature of the liquid in the distillation flask cools below 175c. pour the hot residue into a suitable container.12.3.3 treat all reference and suspect oils in the same manner as the waterborne oil samples. repeat 12.2.1-12.3.2.procedure blimited sample volumes of heavy oils17.3 centrifuge as described in for 5 min.17.4 decant supernatant liquid into a 250-ml beaker and evaporate the solvent and volatiles initially at 25 to 35c and then at 40 to 50c for 2 h in the presence of a stream of nitrogen. transfer the sample to a sample vial when there is approximately 4 ml sample remaining and continue the solvent removal. the samples can then be used for analysis in accordance with practice d 3415.note 6this treatment with 70 mg of oil, evaporated at 40c for 15 min in the presence of an airstream, yielded gas chromatograms resem- bling those of the distillation test method in 12.3.10procedure coils boiling below 280c13. scope13.1 this procedure covers the preparation for analysis of waterborne oil samples of petroleum derived origin in which the volumes equal or are less than 1 ml. an aliquot of larger oil samples may also be used.13.2 the procedure is applicable to oils containing signifi- cant amounts of hydrocarbons boiling above 280c.13.3 the preparation of samples containing lower boiling hydrocarbon is beyond the scope of this procedure, but is covered by procedures c and e.14. summary of procedure14.1 the sample is dissolved in pentane or hexane, and the water and insolubles are removed by centrifugation. the organic solvent phase is dried with anhydrous magnesium sulfate, filtered, and the volatile components and solvents are removed by evaporation under a nitrogen stream (see note 3).15.