水利水电工程专业毕业设计外文翻译.docx
- 文档编号:4696562
- 上传时间:2022-12-07
- 格式:DOCX
- 页数:6
- 大小:22.96KB
水利水电工程专业毕业设计外文翻译.docx
《水利水电工程专业毕业设计外文翻译.docx》由会员分享,可在线阅读,更多相关《水利水电工程专业毕业设计外文翻译.docx(6页珍藏版)》请在冰豆网上搜索。
水利水电工程专业毕业设计外文翻译
附录一外文翻译
英文原文
AssessmentandRehabilitationofEmbankmentDams
NasimUddin,P.E.,M.ASCE1
Abstract:
Aseriesofobservations,studies,andanalysestobemadeinthefieldandintheofficearepresentedtogainaproperunderstandingofhowanembankmentdamfitsintoitsgeologicsettingandhowitinteractswiththepresenceofthereservoiritimpounds.Itisintendedtoprovideanintroductiontotheengineeringchallengesofassessmentandrehabilitationofembankments,withparticularreferencetoaCrotonDamembankment.
DOI:
10.1061/(ASCE)0887-3828(2002)16:
4(176)
CEDatabasekeywords:
Rehabilitation;Dams,embankment;Assessment.
Introduction
Manymajorfacilities,hydraulicorotherwise,havebecomeveryoldandbadlydeteriorated;moreandmoreownersarecomingtorealizethatthecostofrestoringtheirfacilitiesistakingupasignificantfractionoftheiroperatingbudgets.Rehabilitationis,therefore,becomingamajorgrowthindustryforthefuture.Inembankmentdamengineering,neitherthefoundationnorthefillsarepremanufacturedtostandardsorcodes,andtheirperformancecorrespondinglyisnever100%predictable.Damengineering—inparticular,thatrelatedtoearthstructures—hasevolvedonmanyfrontsandcontinuestodoso,particularlyinthecontextoftheeconomicaluseofresourcesandthedeterminationofacceptablelevelsofrisk.Becauseofthis,therefore,thereremainsawidevarietyofopinionandpracticeamongengineersworkinginthefield.Manyaspectsofdesigningandconstructingdamswillprobablyalwaysfallwithinthatgroupofengineeringproblemsforwhichtherearenouniversallyacceptedoruniquelycorrectprocedures.
Inspiteofadvancesinrelatedtechnologies,however,itislikelythatthebuildingofembankmentsandthereforetheirmaintenance,monitoring,andassessmentwillremainanempiricalprocess.Itis,therefore,difficulttoconceiveofasetofrigorous
assessmentproceduresforexistingdams,iftherearenodesigncodes.Manyagencies(theU.S.ArmyCorpsofEngineers,USBR,TennesseeValleyAuthority,FERC,etc.)havedevelopedchecklistsforfieldinspections,forexample,andsuggestedformatsandtopicsforassessmentreporting.However,thesecannotbetakenasprocedures;theyserveasguidelines,reminders,andexamplesofwhattolookforandreporton,buttheyserveasnosubstituteforanexperienced,interested,andobservantengineeringeye.Severalkeyfactorsshouldbeexaminedbytheengineerinthecontextofthemandateagreeduponwiththedamowner,andthesetogetherwithrelevantandappropriatecomputationsofstaticanddynamicstabilityformthebasisoftheassessment.Itisonlysensibleforanengineertocommittotheevaluationoftheconditionof,ortheassessmentof,anexistingandoperatingdamifhe/sheisfamiliarandcomfortablewiththedesignandconstructionofsuchthingsandfurthermorehasdemonstratedhis/herunderstandingandexperience.
RehabilitationMeasures
Themainfactorsaffectingtheperformanceofanembankmentdamare
(1)seepage;
(2)stability;and(3)freeboard.Foranembankmentdam,allofthesefactorsareinterrelated.Seepagemaycauseerosionandpiping,whichmayleadtoinstability.Instabilitymaycausecracking,which,inturn,maycausepipinganderosionfailures.Themeasurestakentoimprovethestabilityofanexistingdamagainstseepageandpipingwilldependonthelocationoftheseepage(foundationorembankment),theseepagevolume,anditscriticality.Embankmentslopestabilityisusuallyimprovedbyflatteningtheslopesorprovidingatoeberm.Thisslopestabilizationisusuallycombinedwithdrainagemeasuresatthedownstreamtoe.Ifthestabilityoftheupstreamslopeunderrapiddrawdownconditionsisofconcern,thenfurtheranalysisand/ormonitoringofresultingporepressuresormodificationsofreservoiroperations
mayeliminateorreducetheseconcerns.Finally,raisinganearthfilldamisusuallyarelativelystraightforwardfillplacementoperation,especiallyiftheextentoftheraisingisrelativelysmall.Theinterfacebetweentheoldandnewfillsmustbegivencloseattentionbothindesignandconstructiontoensurethecontinuityoftheimperviouselementandassociatedfilters.Relativelynewmaterials,suchastheimperviousgeomembranesandreinforcedearth,havebeenusedwithsuccessinraisingembankmentdams.Rehabilitationofanembankmentdam,however,israrely
achievedbyasinglemeasure.Usuallyacombinationofmeasures,suchastheinstallationofacutoffplusapressurereliefsystem,isused.Inrehabilitationwork,theeffectivenessoftherepairsisdifficulttopredict;often,aphasedapproachtotheworkisnecessary,withmonitoringandinstrumentationevaluatedastheworkproceeds.Intherehabilitationofdams,thesecurityoftheexistingdammustbeanoverridingconcern.Itisnotuncommonforthedamtohavesufferedsignificantdistress—oftenduetothedeficienciesthattherehabilitationmeasuresaretoaddress.
Thedammaybeinpoorconditionattheoutsetandmaypossiblybeinamarginallystablecondition.Therefore,howtherehabilitationworkmaychangethepresentconditions,bothduringconstructionandinthelongterm,mustbeassessed,toensurethatitdoesnotadverselyaffectthesafetyofthedam.Inthefollowingtext,acasestudyispresentedasanintroductiontotheengineeringchallengesofembankmentrehabilitation,withparticularreferencetotheCrotonDamProject.
CaseStudy
TheCrotonDamProjectislocatedontheMuskegonRiverinMichigan.TheprojectisownedandoperatedbytheConsumerPowerCompany.Theprojectstructuresincludetwoearthembankments,agatedspillway,andaconcreteandmasonrypowerhouse.Theearthembankmentsofthisprojectwereconstructedofsandwithconcretecorewalls.Theembankmentswerebuiltusingamodifiedhydraulicfillmethod.Thismethodconsistedofdumpingthesandandthensluicingthesandintothedesiredlocation.CrotonDamisclassifiedasa‘‘high-hazard’’damandisinearthquakezone1.AspartoftheFERCPart12Inspection(FERC1993),anevaluationoftheseismicstabilitywasperformedforthedownstreamslopeoftheleftembankmentatCrotonDam.TheCrotonDamembankmentwasanalyzedinthefollowingmanner.Soilparameterswerechosenbasedonstandardpenetration(N)valuesandlaboratorytests,andaseismicstudywascarriedouttoobtainthedesignearthquake.Usingthechosensoilproperties,astaticfinite-elementstudywasconductedtoevaluatetheexistingstateofstressintheembankment.Thenaone-dimensionaldynamicanalysiswasconductedtodeterminethestressinducedby
thedesignearthquakeshaking.Theavailablestrengthwascomparedwithexpectedmaximumearthquakeconditionssothatthestabilityoftheembankmentduringandimmediatelyafteranearthquakecouldbeevaluated.Theevaluationshowedthatthe
embankmenthadastrongpotentialtoliquefyandfailduringthedesignearthquake.Theminimumsoilstrengthrequiredtoeliminatetheliquefactionpotentialwasthendetermined,andarecommendationwasmadetostrengthentheembankmentsoilsbyinsitudensification.
SeismicEvaluation
Twomodesoffailurewereconsideredintheanalyses—namely,lossofstabilityandexcessivedeformationsoftheembankment.Thefollowinganalyseswerecarriedoutinsuccession:
(1)Determinationofporewaterpressurebuildupimmediatelyfollowingthedesignearthquake;
(2)estimationofstrengthfortheloosefoundationlayerduringandimmediatelyfollowingtheearthquake;(3)analysisofthelossofstabilityforpostearthquakeloadingwheretheloosesandlayerintheembankmentiscompletelyliquefied;and(4)liquefactionimpactanalysisfortheloosesandlayerforwhichthefactorofsafetyagainstliquefactionisunsatisfactory.
LiquefactionImpactAssessment
BasedontheaverageofthecorrectedSPTvalueandcyclicstressratio(TokimatsuandSeed1987),atotalsettlementofthe4.6m(15ft)thicklooseembankmentlayerduetocompleteliquefactionwasfoundtobe0.23m(0.75ft).
PermanentDeformationAnalysis
BasedonaprocedurebyMakdisiandSeed(1977),permanentdeformationcanbecalculatedusingtheyieldacceleration,andthetimehistoryoftheaveragedinducedacceleration.Sincethefactorofsafetyagainstflowfailureimmediatelyfollowingthe
earthquakefallswellshortofthatrequiredbyFERC,theNewmarktypedeformationanalysisisunnecessary.Therefore,itcanbeconcludedthattheembankmentwillundergosignificantpermanentdeformationfollowingtheearthquake,duetoslopefailureinexcessoftheliquefaction-inducedsettlementof0.23m(0.75ft).
EmbankmentRemediation
Basedontheforegoingresults,itwasrecommendedtostrengthentheembankmentbyinsitudensification.Ananalysiswascarriedouttodeterminetheminimumsoilstrengthrequiredtoeliminatetheliquefactionpotential.Theanalysiswasdividedintothreeparts,asfollows.First,aslopestabilityanalysis@usingthecomputerprogramPCSTABL(Purdue1988)#ofthedownstreamslopeoftheleftembankmentwasconducted.Strengthandgeometricparameterswerevariedinordertodeterminetheminimumresidualshearstrengthandminimumzoneofsoilstrengtheningrequiredforapostearthquakestabilityfactorofsafety,(FS)>1.Second,SPTcorrectionsweremade.Theminimumresidualshearstrengthcorrelatestoacorrected/normalizedpenetration
resistancevalue(N1)of60.Fromthisvalue,abackcalculationwasperformedtodeterminetheminimumfieldmeasurestandardpenetrationresistanceNvalues(blowsperfoot).Third,liquefactionpotentialwasreevaluatedbasedontheminimumzoneofstrengtheningandminimumstrengthinordertoshowthatiftheemb
- 配套讲稿:
如PPT文件的首页显示word图标,表示该PPT已包含配套word讲稿。双击word图标可打开word文档。
- 特殊限制:
部分文档作品中含有的国旗、国徽等图片,仅作为作品整体效果示例展示,禁止商用。设计者仅对作品中独创性部分享有著作权。
- 关 键 词:
- 水利水电工程 专业 毕业设计 外文 翻译