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本文(ASTM D5299-1999(2012)e1 Standard Guide for Decommissioning of Groundwater Wells Vadose Zone Monitoring Devices Boreholes and Other Devices for Environmental Activities《测定环境活性物质用地下水.pdf)为本站会员(周芸)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 D5299-1999(2012)e1 Standard Guide for Decommissioning of Groundwater Wells Vadose Zone Monitoring Devices Boreholes and Other Devices for Environmental Activities《测定环境活性物质用地下水.pdf

1、Designation: D5299 99 (Reapproved 2012)1Standard Guide forDecommissioning of Groundwater Wells, Vadose ZoneMonitoring Devices, Boreholes, and Other Devices forEnvironmental Activities1This standard is issued under the fixed designation D5299; the number immediately following the designation indicate

2、s 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 () indicates an editorial change since the last revision or reapproval.1NOTEEditorial changes were made throughout in February 20

3、12.1. Scope1.1 This guide covers procedures that are specifically re-lated to permanent decommissioning (closure) of the followingas applied to environmental activities. It is intended for usewhere solid or hazardous materials or wastes are found, orwhere conditions occur requiring the need for deco

4、mmission-ing. The following devices are considered in this guide:1.1.1 A borehole used for geoenvironmental purposes (seeNote 1),1.1.2 Monitoring wells,1.1.3 Observation wells,1.1.4 Injection wells (see Note 2),1.1.5 Piezometers,1.1.6 Wells used for the extraction of contaminatedgroundwater, the rem

5、oval of floating or submerged materialsother than water such as gasoline or tetrachloroethylene, orother devices used for the extraction of soil gas,1.1.7 A borehole used to construct a monitoring well, and1.1.8 Any other vadose zone monitoring device.1.2 Temporary decommissioning of the above is no

6、t cov-ered in this guide.NOTE 1This guide may be used to decommission boreholes where nocontamination is observed at a site (see Practice D420 for details);however, the primary use of the guide is to decommission boreholes andwells where solid or hazardous waste have been identified. Methodsidentifi

7、ed in this guide can also be used in other situations such as thedecommissioning of water supply wells and boreholes where watercontaminated with nonhazardous pollutants (such as nitrates or sulfates)are present. This guide should be consulted in the event that a routinegeotechnical investigation in

8、dicates the presence of contamination at asite.NOTE 2The term “well” is used in this guide to denote monitoringwells, piezometers, or other devices constructed in a manner similar to awell. Some of the devices listed such as injection and extraction wells canbe decommissioned using this guide for in

9、formation, but are not specifi-cally covered in the text.NOTE 3Details on the decommissioning of multiple-screened wellsare not provided in this guide due to the many methods used to constructthese types of wells and the numerous types of commercially availablemultiple-screened well systems. However

10、, in some instances, the methodspresented in this guide may be used with few changes.An example of howthis guide may be used is the complete removal of the multiple-screenedwells by overdrilling.1.3 Most monitoring wells and piezometers are intendedprimarily for water quality sampling, water level o

11、bservation,or soil gas sampling, or combination thereof, to determinequality. Many wells are relatively small in diameter and areused to monitor for hazardous chemicals in groundwater.Decommissioning of monitoring wells is necessary to:1.3.1 Eliminate the possibility that the well is used forpurpose

12、s other than intended,1.3.2 Prevent migration of contaminants into an aquifer orbetween aquifers,1.3.3 Prevent migration of contaminants in the vadose zone,1.3.4 Reduce the potential for vertical or horizontal migra-tion of fluids in the well or adjacent to the well, and1.3.5 Remove the well from ac

13、tive use when the well is nolonger capable of rehabilitation, or has failed structurally; nolonger required for monitoring; no longer capable of providingrepresentative samples or is providing unreliable samples; orrequired to be decommissioned; or to meet regulatory require-ments.NOTE 4The determin

14、ation of whether a well is providing a represen-tative water quality sample is not defined in this guide. Examples of whena representative water quality sample may not be collected include thebiological or chemical clogging of well screens, a drop in water level tobelow the base of the well screen,

15、or complete silting of a tail pipe. Theseconditions may indicate that a well is not functioning properly.1.4 This guide is intended to provide information for effec-tive permanent closure of wells so that the physical structure ofthe well does not provide a means of hydraulic communicationbetween aq

16、uifers or react chemically in a detrimental way withthe environment.1This guide is under the jurisdiction of ASTM Committee D18 on Soil andRockand is the direct responsibility of Subcommittee D18.21 on Groundwater andVadose Zone Investigations.Current edition approved Feb. 15, 2012. Published Decemb

17、er 2012. Originallyapproved in 1992. Last previous edition approved in 2005 as D5299 99(2005).DOI: 10.1520/D5299-99R12E1.Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States11.5 The intent of this guide is to provide procedures thatwhen fo

18、llowed result in a reasonable level of confidence in theintegrity of the decommissioning activity. However, it may notbe possible to verify the integrity of the decommissioningprocedure. At this time, methods are not available to substan-tially determine the integrity of the decommissioning activity

19、.1.6 The values stated in inch-pound units are to be regardedas the standard. The SI units given in parentheses are forinformation only.1.7 This standard does not purport to address all of thesafety problems, if any, associated with its use. It is theresponsibility of the user of this standard to es

20、tablish appro-priate safety and health practices and determine the applica-bility of regulatory limitations prior to use.1.8 This guide offers an organized collection of informationor a series of options and does not recommend a specificcourse of action. This document cannot replace education orexpe

21、rience and should be used in conjunction with professionaljudgment. Not all aspects of this guide may be applicable in allcircumstances. This ASTM standard is not intended to repre-sent or replace the standard of care by which the adequacy ofa given professional service must be judged, nor should th

22、isdocument be applied without consideration of a projects manyunique aspects. The word“ Standard” in the title of thisdocument means only that the document has been approvedthrough the ASTM consensus process.NOTE 5If state and local regulations are in effect where the decom-missioning is to occur, t

23、he regulations take precedence over this guide.2. Referenced Documents2.1 ASTM Standards:2C150 Specification for Portland CementD420 Guide to Site Characterization for Engineering Designand Construction Purposes (Withdrawn 2011)3D653 Terminology Relating to Soil, Rock, and ContainedFluidsD4380 Test

24、Method for Density of Bentonitic SlurriesD5088 Practice for Decontamination of Field EquipmentUsed at Waste SitesD5092 Practice for Design and Installation of Ground WaterMonitoring Wells3. Terminology3.1 Definitions:3.1.1 For definitions of common technical terms in thisstandard, refer to Terminolo

25、gy D653.3.2 Definitions of Terms Specific to This Standard:3.2.1 abandonmentsee decommissioning.3.2.2 attapulgite claya chain-lattice clay mineral. Theterm also applies to a group of clay minerals that arelightweight, tough, matted, and fibrous.3.2.3 borehole television loga borehole or well videore

26、cord produced by lowering a television camera into theborehole or well. This record is useful in visually observingdownhole conditions such as collapsed casing or a blockedscreen.3.2.4 blowouta sudden or violent uncontrolled escape offluids or gas, or both, from a borehole.3.2.5 caliper loga geophys

27、ical borehole log that shows toscale the variations with depth in the mean diameter of a casedor uncased borehole.3.2.6 cement, API, Class Aa cement intended for use fromthe surface to a depth of 6000 ft (1828 m). This cement issimilar to ASTM Type I cement.3.2.7 cement, API, Class Ba cement intende

28、d for use fromthe surface to a depth of 6000 ft (1828 m) when conditionsrequire moderate- to high-sulfate resistance. This cement issimilar to ASTM Type II cement.3.2.8 cement, API, Class Cthis cement is intended for usefrom the surface to a depth of 6000 ft (1828 m) whenconditions require high earl

29、y strength. This cement is similar toASTM Type III cement. Also available as a high sulfateresistant type.3.2.9 cement, API, Class Gthis cement is intended for usefrom the surface to a depth of 8000 ft (2438 m). It can be usedwith accelerators or retarders to cover a wide range of welldepths and tem

30、peratures. No additions other than calciumsulfate or water, or both, can be interground or blended with theclinker during manufacture of the cement. Also available asseveral sulfate-resistant types.3.2.10 cement, API, Class Hthis cement is intended foruse from the surface to a depth of 8000 ft (2438

31、 m). It can beused with accelerators or retarders to cover a wide range ofwell depths and temperatures. No additions other than calciumsulfate or water, or both, can be interground or blended with theclinker during manufacture of the cement. Also available as asulfate-resistant type.3.2.11 cement, A

32、PI, Class Jthis cement is intended for usefrom depths of 12 000 to 16 000 ft (3658 to 4877 m) underconditions of extremely high temperatures and pressures. It canbe used with accelerators and retarders to cover a range of welldepths and temperatures. No additions of retarders other thancalcium sulfa

33、te, or water, or both, can be interground orblended with the clinker during manufacture of the cement.3.2.12 cement bond (sonic) loga borehole geophysical logthat can be used to determine the effectiveness of a cement sealof the annular space of a well.3.2.13 channelingthe process of forming a verti

34、cal cavityresulting from a faulty cement job in the annular space.3.2.14 curing acceleratora material added to cement todecrease the time for curing. Examples are sodium chloride,calcium sulfate (gypsum), and aluminum powder.3.2.15 curing retardera material added to cement toincrease the time for cu

35、ring. Sodium chloride in high concen-trations is an example.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.3

36、The last approved version of this historical standard is referenced onwww.astm.org.D5299 99 (2012)123.2.16 decommissioning (closure)the engineered closureof a well, borehole, or other subsurface monitoring devicesealed with plugging materials. Decommissioning also in-cludes the planning and document

37、ing of all associated activi-ties. A synonym is abandonment.3.2.17 decontaminationthe process of removing undesir-able physical or chemical constituents, or both, from equip-ment to reduce the potential for cross-contamination.3.2.18 fallbackshrinkage, settlement, or loss of pluggingmaterial placed

38、in a borehole or well.3.2.19 fire claya silicious clay rich in hydrous aluminumsilicates.3.2.20 flow loga borehole geophysical log used to recordvertical movement of groundwater and movement of water intoor out of a well or borehole and between formations within awell.3.2.21 geophysical borehole log

39、a log obtained by lower-ing an instrument into a borehole and continuously recording aphysical property of native or backfill material and containedfluids. Examples include resistivity, induction, caliper, sonic,and natural gamma logs.3.2.22 groutmaterial consisting of bentonite, cement, or acement-

40、bentonite mixture.3.2.23 grout pipea pipe or tube that is used to transportcement, bentonite, or other plugging materials from the groundsurface to a specified depth in a well or borehole. The materialmay be allowed to flow freely or it may be injected underpressure. The term tremie pipe is frequent

41、ly used interchange-ably.3.2.24 hydraulic communicationthe migration of fluidsfrom one zone to another, with reference to this guide;especially along a casing, grout plug, or through backfillmaterials.3.2.25 multiple-screened wellstwo or more monitoringwells situated in the same borehole.These devic

42、es can be eitherindividual casing strings and screen set at a specific depth, awell with screens in more than one zone, or can consist ofdevices with screens with tubing or other collecting devicesattached that can collect a discrete sample.3.2.26 native materialin place geologic (or soil) materials

43、encountered at a site.3.2.27 overdrillingthe process of drilling out a well casingand any material placed in the annular space.3.2.28 perforationa slot or hole made in well casing toallow for communication of fluids between the well and theannular space.3.2.29 permanent plugginga seal that has a hyd

44、raulicconductivity that is equivalent or less than the hydraulicconductivity of the geologic formation. This term is often usedwith uncased boreholes.3.2.30 plow layerthe depth typically reached by a plow orother commonly used earth turning device used in agriculture.This depth is commonly one to tw

45、o feet (.3 m to .61 m) belowland surface.3.2.31 plugging materiala material that has a hydraulicconductivity equal to or less than that of the geologic forma-tion(s) to be sealed. Typical materials include portland cementand bentonite.3.2.32 pre-conditioningan activity conducted prior toplacing plug

46、ging material into a borehole in order to stabilizethe hole.3.2.33 temporary decommissioningthe engineered closureof a well intended to be returned to service at some later date(generally no more than six months). Temporary pluggingshould not damage the structural integrity of the well. Pluggingmate

47、rials consist of sand, bentonite, or other easily removedmaterials.4. Summary of Guide4.1 Information is provided on the significance of properlydecommissioning boreholes and wells at sites containing orformerly containing solid or hazardous waste or hazardousmaterials or their byproducts, or that m

48、ay be affected by solidor hazardous waste materials or their byproducts in the future.This guide may be used in situations where water quality in oneaquifer may be detrimental to another aquifer either above orbelow the aquifer. The primary purpose of decommissioningactivities is to permanently deco

49、mmission the borehole ormonitoring device so that the natural migration of groundwateror soil vapor is not significantly influenced. Decommissionedboreholes and wells should have no adverse influence on thelocal environment than the original geologic setting.4.2 It is important to have a good understanding of thegeology, hydrogeology, well construction, historic and futureland use, chemicals encountered, and the regulatory environ-ment for successful decommissioning to occur.4.3 Various materials suitable for decommissioning bore-holes and

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