ASTM D6759-2007 Standard Practice for Sampling Liquids Using Grab and Discrete Depth Samplers《用抓斗采样器和离散深度采样器对液体取样的标准实施规程》.pdf

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1、Designation: D 6759 07Standard Practice forSampling Liquids Using Grab and Discrete Depth Samplers1This standard is issued under the fixed designation D 6759; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, the year of last revisio

2、n. 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 describes sampling devices and proceduresfor collecting samples of liquids or sludges, or both, whoseupper surface

3、can be accessed by the suitable device. Thesedevices may be used to sample tanks that have an appropriatelysized and located sampling port.1.2 This practice describes and discusses the advantages andlimitations of the following commonly used equipment, someof which can be used for both grab and disc

4、rete depthsampling: dipper, liquid grab sampler, swing jar sampler,Bacon Bomb, Kemmerer sampler, Discrete Level sampler,liquid profiler, lidded sludge/water sampler, peristaltic pump,and the Syringe sampler.1.3 This practice provides instructions on the use of thesesamplers.1.4 This practice does no

5、t address sampling devices forcollecting ground water.1.5 This standard does 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

6、of regulatory limitations prior to use.2. Referenced Documents2.1 ASTM Standards:2D 4687 Guide for General Planning of Waste SamplingD 4840 Guide for Sample Chain-of-Custody ProceduresD 5088 Practices for Decontamination of Field EquipmentUsed at Waste SitesD 5283 Practice for Generation of Environm

7、ental DataRelated to Waste Management Activities: Quality Assur-ance and Quality Control Planning and ImplementationD 5358 Practice for Sampling with a Dipper or PondSamplerD 5743 Practice for Sampling Single or Multilayered Liq-uids, With or Without Solids, in Drums or Similar Con-tainersD 5792 Pra

8、ctice for Generation of Environmental DataRelated to Waste Management Activities: Development ofData Quality ObjectivesD 5956 Guide for Sampling Strategies for HeterogeneousWastesD 6044 Guide for Representative Sampling for Manage-ment of Waste and Contaminated MediaD 6051 Guide for Composite Sampli

9、ng and Field Subsam-pling for Environmental Waste Management ActivitiesD 6232 Guide for Selection of Sampling Equipment forWaste and Contaminated Media Data Collection ActivitiesD 6323 Guide for Laboratory Subsampling of Media Re-lated to Waste Management ActivitiesD 6538 Guide for Sampling Wastewat

10、er With AutomaticSamplersD 6699 Practice for Sampling Liquids Using BailersE 856 Definitions of Terms and Abbreviations Relating toPhysical and Chemical Characteristics of Refuse DerivedFuel3. Terminology3.1 discrete depth sample, nsample obtained from adefined level within the liquid being sampled.

11、3.2 grab sample, nindividual sample collected over aperiod of time usually not exceeding 15 min and in such amanner as to be representative of conditions at the time ofsampling. Grab samples are sometimes called individual ordiscrete samples.3.3 representative sample, nsample collected such that itr

12、eflects one or more characteristics of interest (as defined bythe project objectives) of a population from which it wascollected. D 59563.4 sample, nportion of material taken from a largerquantity for the purpose of estimating properties or composi-tion of the larger quantity. E 8561This practice is

13、 under the jurisdiction of ASTM Committee D34 on WasteManagement and is the direct responsibility of Subcommittee D34.01.03 onSampling Equipment.Current edition approved Oct. 1, 2007. Published October 2007. Originallyapproved in 2002. Last previous edition approved in 2002 as D 6759-02.2For referen

14、ced 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.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West C

15、onshohocken, PA 19428-2959, United States.3.5 sludge, nany mixture of solids that settles out ofsolution. Sludges contain liquids that are not apparent as freeliquids (see Practice D 5743). D 63234. Significance and Use4.1 Sampling at specified depth(s) within a liquid may beneeded to confirm or rul

16、e out variations within a targetpopulation. This practice describes the design and operation ofcommercially available grab and discrete depth samplers forpersons responsible for designing or implementing samplingprograms, or both.4.2 These sampling devices are used for sampling liquids intanks, pond

17、s, impoundments, and other open bodies of water.Some may be used from the edge or bank of the sampling site,whereas some can only be used from a platform, boat, or bridgeover the sampling site. Some of the devices described aresuitable for sampling slurries and sludges as well as aqueousand other li

18、quids with few or no suspended solids.4.3 Practice D 5743 provides guidance for sampling drums,tanks, or similar containers.4.4 This practice does not address general guidelines forplanning waste sampling activities (Guide D 4687), develop-ment of data quality objectives (Practice D 5792), the desig

19、n ofmonitoring systems and determination of the number ofsamples to collect (Practice D 6311), in situ measurement ofparameters of interest, data assessment and statistical interpre-tation of resultant data (Guide D 6233), sample preservation,sampling and field quality assurance (Guide D 5612), or t

20、heselection of sampling locations or obtaining a representativesample (Guide D 6044).5. Pre-Sampling5.1 Samples should be collected in accordance with anappropriate work plan (Practice D 5283 and Guide D 4687)and in accordance with the Data Quality Objectives (PracticeD 5792). The plan should includ

21、e a worker health and safetysection because of the potential hazards associated with sam-pling wastes.35.2 All equipment shall be clean, dry, and compatible withthe anticipated composition of the material being sampled(Practice D 5088). When sampling a hazardous material, if theexterior of the sampl

22、e bottle or sampling apparatus contacts thehazardous material, it needs to be cleaned before subsequentsteps, such as labelling or sample transfer, are taken.5.3 For samplers with long handles, if high voltage electri-cal wires could come into contact with the handle, the handleshould be made of non

23、conductive material, such as wood.5.4 For guidance in obtaining a representative sample, seeGuide D 6044.5.5 For guidance in how to prepare composite samples andsubsamples in the field, see Guide D 6051.5.6 Some discrete samples can be taken using bailers (seePractice D 6699). Additional information

24、 on selecting sam-pling equipment, based on the sample matrix, and the con-straints on the use of equipment, based on the physical andchemical properties of the equipment, can be found in GuideD 6232.6. Sampling Equipment and Procedures6.1 Dipper:6.1.1 DescriptionA dipper can consist of a variety of

25、pieces of equipment assembled in a manner to obtain a sample.6.1.1.1 One type has an adjustable clamp attached to the endof a metal rod or tube, which may be extendable (see Fig. 1).The rod or tube forms the handle and the clamp is used tosecure it to a beaker or other sample container.6.1.1.2 Anoth

26、er type of device is made using a stainlesssteel tube clamped to a moveable bracket that is attached to arigid handle. The angle of the cup to the handle is adjustable(Practice D 5358).6.1.2 Procedure:6.1.2.1 With the beaker facing downward, lower the dipperbeaker into the liquid slowly until it is

27、submerged. Try to causea minimum of surface disturbance.6.1.2.2 Rotate the beaker through 180. If there is a current,the mouth of the beaker should face upstream during therotation.6.1.2.3 Allow the beaker to fill.6.1.2.4 Slowly bring it to the surface.6.1.2.5 Transfer the sample, usually by gently

28、pouring thedippers contents into a clean sample container.6.1.3 Advantages and Limitations:Advantages LimitationsIt is inexpensive.When attached to a rigid pole, itcan reach to4m(1013 ft)away from the personcollecting samples.It can be used to obtain onlysurface samples.Because the sample collection

29、 chamberis always open, it cannot obtain asample containing the same strataproportions as the strata at the locationbeing sampled.6.2 Liquid Grab Sampler:6.2.1 DescriptionA liquid grab sampler consists of a rigidhandle with a bottle attached to one end. The bottle is sealedwith a plunger that can be

30、 opened or closed by moving thecable that is attached to it (see Fig. 2).3Occupational Safety and Health Guidance Manual for Hazardous Waste SiteActivities, DHHS (NIOSH) Publication No. 85-115 (NTIS No. PB87-162855/LL),NIOSH, OSHA, USCG, EPA, October 1985.FIG. 1 DipperD67590726.2.2 ProcedureAssemble

31、 the liquid grab sampler per themanufacturers instructions.6.2.2.1 When assembled, thread the bottle onto the grabsampler head and tighten by turning the bottle clockwise.6.2.2.2 Submerge the sampler to the desired depth and pullthe split key ring to allow liquid to enter the bottle.6.2.2.3 Release

32、the ring to close the bottle.6.2.2.4 Raise the sampler from the liquid.FIG. 2 Liquid Grab SamplerD67590736.2.2.5 Remove the filled sample bottle and seal it.6.2.2.6 Clean the outside surface of the sample bottle.6.2.3 Advantages and Limitations:Advantages LimitationsThe sample jar is availablecommer

33、cially in a range of materials,providing the choice of one that ischemically inert to the contaminantsof interest.Handles of various lengths can beused to obtain samples fromdifferent depths.The sample does not need to betransferred to another containerfor shipping.The sampler is not opened untilthe

34、 desired sampling depth isreached, that is, it can be usedas a discrete depth sampler(see Practice D 6699).True depth of sample unknown unlessdevice is vertically deployed.Not able to collect stratifiedsamples of proper proportions.Exterior of sample bottle needscleaning after immersion inhazardous

35、waste.6.3 Swing Jar Sampler:6.3.1 DescriptionThis sampling device consists of a polethat screws into a bottle holder (see Fig. 3). The angle of thebottle with respect to the pole can be varied.6.3.2 Procedure:6.3.2.1 Select the bottle clamp that best fits the desiredsample bottle.6.3.2.2 Connect the

36、 pole to the bottle holder and turn itclockwise until snug.6.3.2.3 Slide the clamp onto the bottle to a point midwaybetween the bottle shoulder and heel.6.3.2.4 Tighten the screw located in the inner pole screwthreads of the bottle holder.6.3.2.5 Lower the sampler into the liquid slowly with thebott

37、le facing downward until it is submerged to cause minimalsurface disturbance.6.3.2.6 Rotate the bottle through 180.NOTE 1If there is a current, the mouth of the bottle should faceupstream during the rotation.6.3.2.7 Allow the bottle to fill and slowly bring it to thesurface.6.3.2.8 Loosen the screw

38、holding the bottle to the device.6.3.2.9 Remove the bottle from the holder.6.3.2.10 For transport to the laboratory, either seal the bottleand clean the exterior or transfer the bottles contents into aclean sample container.6.3.3 Advantages and Limitations:Advantages LimitationsThe sampler can accom

39、modatedifferent sample bottle sizesup to 960 mL.It allows collection from variousangles, including vertical.Not suitable for discrete depth sampling.Exterior of sample bottle needscleaning after immersion inhazardous waste.6.4 Bacon Bomb:6.4.1 DescriptionThe Bacon Bomb sampler consists of asealed ho

40、llow tube or chamber. It is attached to a primarycable/line, with length markings and an actuator rod (labeledSecondary Activation in Fig. 4) connected to a second line,which opens and closes the chambers valves.6.4.2 Procedure:6.4.2.1 Measure and mark the support line or cable with thedesired lengt

41、h or depth.6.4.2.2 Close the chamber.6.4.2.3 Lower the Bacon Bomb sampler using the primarysupport line or cable to the desired depth, as marked on thesupport line. The second line must remain slack during thelowering procedure to avoid accidentally opening the sampler.Secure the line.6.4.2.4 Open t

42、he chamber by pulling on the actuator rodline, thereby allowing the sampler to fill.6.4.2.5 When the chamber is full, release the second line toclose the sampler.6.4.2.6 Return the sampler to the surface by raising theprimary support line.6.4.2.7 Transfer the contents of the Bacon Bomb sampler toa c

43、lean dry sample container. Hold the Bacon Bomb samplerover the sample container. Open the lower stopper by raisingthe actuator rod. Drain the contents into a clean samplecontainer(s).6.4.3 Advantages and Limitations:FIG. 3 Swing Jar SamplerD6759074Advantages LimitationsSampler is closed to the mater

44、ialbeing sampled until it has reachedits intended depth, that is, it canbe used as a discrete depthsampler.It is available in 118-mL to1000-mL volumes in platedbrass, stainless steel,acrylic and PTFE.The stainless steel unit iseffective for use in highviscosity non aqueousliquids, for example, oil.T

45、he lowering and activation linestend to cross each other duringdescent, which could allowsample collection to occurat the wrong depth.The commercially available stainlesssteel unit has a maximumcapacity of 500 mL.PTFE device is expensiverelative to stainless steel.Not effective in turbid samplemedia

46、, according to themanufacturer.Slight leakage into the interiormay occur with the stainlesssteel unit during descent,according to the manufacturerWith viscous material, an excessof the material being sampledmay adhere to the outside ofthe Bacon Bomb sampler.6.5 Syringe Sampler:6.5.1 DescriptionThe S

47、yringe sampler is a hollow tubetype sampler with a bottom fill valve. A Syringe samplernormally consists of a piston assembly with a T-handle, safetylocking nut, and control rod (PTFE-covered aluminum tofacilitate operation of the piston), a piston body assembly, asampling tube assembly, and a stand

48、ard bottom valve or coringbottom (see Fig. 5).6.5.2 Procedure:6.5.2.1 Open the bottom valve.6.5.2.2 Slowly lower the assembled sampler to the desireddepth.6.5.2.3 Raise the T-handle, drawing the sample into thesampler body.6.5.2.4 Close the bottom valve by pressing the samplerdown against the side o

49、r bottom of the container beingsampled.6.5.2.5 Raise the sampler to the surface using the supportline.6.5.2.6 Transfer the contents to a clean dry sample con-tainer. Hold the Syringe sampler over the sample container.Open the bottom valve and push down on the T-handle toextrude the sample into a clean sample container.6.5.3 Advantages and Limitations:Advantages LimitationsIt can be used to sample highlyviscous liquids, sludges, andtar-like substances.It can collect samples even whenonly a small amount remains atthe bottom of a tank or drum.All sample contacting part

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