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Corrosion Control – Corrosion Mitigation & Cathodic Protection Regulatory requirements. P r e s e nt ed B y Thomas Finch N A CE S e nio r C orro s io n T ec hno l o g i s t. Corro s ion Tro ub l eshooti n g C ath o d ic Protection Tool s and E q ui p m ent
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Corrosion Control – Corrosion Mitigation & Cathodic Protection Regulatory requirements
PresentedByThomas Finch NACESeniorCorrosionTechnologist
CorrosionTroubleshooting CathodicProtectionToolsandEquipment EstablishingTestStations,andtheDifferenceBetweenTestPointsandTestStations MonitoringRequirements
Thisseminarwillcoveronlyexternalcorrosionasit appliestopipelinesystems. We will be discussingThe Code ofFederal Regulations, CFR 49, Part 192, as it appliesto hazardousmaterialspipelines. For specificregulationsfor yourindustry, refer to any specificcodesorstatutes. Thematerialsinthiscoursemaybedownloadedto theCoursesite. Thankyou!
Simplyput,theobjectiveofcathodicprotection istomakeallexposedexternalsurfacesofthe pipeline a cathode with respect corrosion cell Twotypesof cathodicprotection: to the basic • Sacrificial anode, where a more reactive metal is • connected to the pipeline, causing a galvanic corrosion cell where the anode is consumed, thus protecting the pipeline • Impressedcurrent,whereanelectricaldevice,calleda rectifier and an impressed-current ground bed are connectedtothe pipe ina waythat prevents corrosion
Anode Cathod eAnode Cathod e AnodeC athode Anode C athod e Anode C athode Anode Cathod e Anode Cathode CathodeCathodeCathodeCathodeCathode CathodeCathodeCathodeCathodeCathode CathodeCathode Before theapplicationofCathodicProtection After the applicationof CathodicProtection Anode
Impressed Current Cathodic Protection Sacrificial Anode Cathodic Protection
Cathodic Protectioncan only be effective if thepipelineisinacommonelectrolytewiththecathodicprotectionsystem • Exampleswhere CP may notbeeffective: • AtmosphericCorrosion • Internalcorrosion • Pipeincongestedpipelinecorridors • Electricalshielding,suchaspipeinacasing,orpipe encased inconcrete,orneardenserock
Wewillcover: • CPTroubleshootingEquipment • Howtosetupa cathodicprotectionarea • DeterminingtheamountofCPTest Stationsneeded • Electricaltroubleshootingbasics
A goodDigitalMultimeter(DMM) ACopper-coppersulfate(CuSO4)referenceelectrode(calleda“half-cell”) Goodquality Lowfrequencypipe/cablelocator Variousslideresistors (25,50,100Watt) A highquality CurrentInterrupter Miscellaneousjumperleads with alligator-style clips at each end
Usinga DMMandhalf-cell,removethe half-cellcapbefore taking the reading,andreplacethe capafter reading. InordertominimizeIRdroperrorwhentaking P/Sreadings, you shouldalwaysplace the half-cellas closeas possible to the testedstructure.Itis acceptable to pourasmall amount ofwaterwhereyouwillembed thehalfcellin earth. Use theVDCsettingonthe DMM,and insertthe testleads intotheappropriateports toreadDCvolts.Place theblack(-) lead ontothehalf-cell,and the red (+)lead ontothe structure. Goodmetalcontactmust be madeonthestructureandhalf cell.
Inaskingthe generalquestion,“Howmanytest pointswillIneed,toadequatelymonitora cathodic protectionarea?”the answerisnot a simpleone. In CFR 49,§192.469Externalcorrosioncontrol: Teststations,it states:“Eachpipelineunder cathodic protectionrequiredby thissubpartmust havesufficientteststationsor othercontactpointsforelectricalmeasurementtodeterminethe adequacyofcathodic protection.” 34606,Aug.16,1976] [Amdt.192–27,41FR
§192.471 Externalcorrosioncontrol:Testleads. • (a)Eachtestleadwiremustbeconnectedtothe pipelinesoastoremainmechanicallysecureand electricallyconductive. • (b) Each test lead wire must be attached to the pipeline so as to minimize stressconcentration onthe pipe. • (c) Each bared test lead wire and bared metallic areaatpointofconnectiontothepipelinemust be coated withanelectrical insulatingmaterial coatingand the compatible withthe pipe insulationonthewire.
Using a DMMandhalf-cellperforma random P/S survey ofthe area.Determineifthe systemmeets one ormoreCPcriteria.The more commoncriteria include:-.85Vdc,100 mVshift,and300 mVshift. Lessusedarethe E Log I andNet protectivecurrent criteria. Use the proceduresonthe slidesthatfollowto establishthe numberof teststationsyouwillneed. Foreaseofillustration,wewilluse the -.85 Vdc criterion.
Ifthe initialrandomP/Ssurvey indicates that all readings meetthe criterion,usea jumperlead with alligatorclips,and shortan insulatorout.Thismay be locatedwherethepiping entersa building,orata metersetting.Thentake randomP/S readingsthroughoutthe testedsection. Ifthe entiresectionof pipe drops belowthecriterion,you mayonlyneedoneteststation,however,werecommendyou establisha minimumoftwo stations per section. Ifonlya portionofthe sectiondrops belowthe selected criterion,continuetothe pointwherethe readingsdonot drop,and thenshortoutthepiping inthe portionthatwas unaffected.Continuetesting untilyou establishall test stations withinthearea.
Exampleofelectricaltesting for teststation setup: KNOWN INSULATOR UNKNOWN INSULATOR UNKNOWN INSULATOR KNOWN INSULATOR
If yourinitialmonitoringindicatesthatthecriterionis not beingmet,thenthestepsbecomemorecomplex,butnot impossible. Inthis case, theremaybe: • An electricalshortonameteror other abovegroundpipelinecomponent. Examplesincludeafencecontactingameter, house pipingtouchingthemeterriser,or abad(shorted)insulatoron themetersetting. • A main-to-mainor main-to-serviceunderground contact. Examplesincludeawater or sewermaintouching agasmainor serviceline,or aCATVor satellitecablegrounded tothe riser. • Thesearenotall situationsthatmaycause thecathodic protectionsystemtobecomeunsuccessfulatprotectingthe pipeline.
Youwillhave tolocateandclearall insulatorshorts and contactsbefore performingelectricalteststo determinethenumberoftestpoints needed. Youmustuse apipelocatorto accomplishthis.Apipe or cablelocator isatwo-partelectricaldevicethat sends an electricsignaldownthe pipelineusingthetransmitter,and thendetectsthissignalthroughthe receiver tolocateelectricalshorts and contacts. Youmustuse conductivelocating,not inductivelocating,toperformthistask.
Theobjective ofline locatingisthat, rather thanlocatingthe pipeline, youare searchingfor any metal objectsthat may contactthepipeline,aswellasanydielectricunionsthatarenot working. Asinthepreviousillustration,conductivelocatingonlyenergizes theline it isattached to, and/or themainline. Other foreignlinesarenotnormallypickedup. Thisislargelyduetothefact that electricity always followsthepathofleastresistance, and thatisnormallydownthemainline. Ifyoupick upaservicelineorother unknownline,andthesignal strengthortoneincreases,thenyouhavemostlikelyfoundanelectricalshortor contact. Repairor replacetheinsulator,or clearthe contact, Onceallcontactsorelectricalshortsarecleared,thenthenext step istoperform asimplecurrent requirementtest.
Beginbylocatingasuitabletestlocationwithinthesectionto be tested. Suitable conditionsinclude ready accessto the pipeline at a meter or other abovegroundpiping; a metal structureforuseasatemporarygroundbed,suchasametal post, barricade, anode connectionor short sectionoffence. Connect theDCpositive postofa truck battery or other DC powersource toatemporary ground. ConnecttheDCnegative posttothepipeline.Thenperformpipe-to-soiltestingwithin thesection,recordingP/Spotentialsfound,andthelocation, etc. CPArea -- + DCpowersource TemporaryGround
ConductaP/Ssurvey: Onceyouhaveclearedallcontactsandelectricalinsulatorshortsandyou havesetupthesimplecurrentrequirementtest,takeP/Sreadings throughoutyouraffectedarea. Ifthe P/Stestingindicatesthattheentiresectionnowmeetstheselectedcriterion,then youmayonlyneedonetestpointwithinthesection,however, asintheprevioussituation,werecommendyouestablishaminimumoftwo teststationswithineachsection. IfP/Stestsindicateonlyaportionofthesectionnowmeetstheselected criterion,then youmustrelocateyourDCpowersourcetothe unaffectedarea,andreapplycurrent,retesting P/Sonceagain,untilyouhaveestablishedallteststationinthesection. CPArea UNKNOWN INSULATOR UNKNOWN --INSULATOR + DCpowersource TemporaryGround
Atestpointisany abovegroundaccesspointwhere pipe-to-soiltestingmaybe performed.It canbe an isolationpoint,a meter,a regulatorset,etc. Ateststationmay be anassignedtestpointor a specifictestleadwireattachedtounderground piping,andisusedforannualtesting Youmust alwaysreadyourteststationsannually, butyoushouldreadrandom testpointsaswell, throughoutyourarea,just toverify thetest stationsyoucurrentlyhave are stillvalid.
WeHavecovered: TheBasicCorrosionCell FormsofCorrosion ThreeToolstoFightCorrosion CathodicProtectionanditsLimitations CorrosionTroubleshooting CPToolsandEquipment EstablishingTestStations,andtheDifferenceBetweenTestPointsandTestStations
Thank You! END