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Causes of electroplating anode slime and application of electroplating auxiliary anode and electroplating insoluble anode

Causes of electroplating anode slime and application of electroplating auxiliary anode and electroplating insoluble anode

MMO insoluble titanium anode for electroplating

MMO insoluble titanium anode for electroplating

MMOinsolubletitaniumanodeforelectroplatingFirst,iridium-tantalum(Ir-Ta)coatedelectrodeOxygen-resistantelectrodeismainlyusedforoxygenevolutionreaction,especiallysuitableforacidelectrolyte,suchasacertainconcentrationofsulfuricacidelectrolyte,theoxygenisverylow,canbeusedforoxygenreleaseelectrolysis,alsoresistanttothecorrosionofchlorine,canbeusedforoxygenreleaseandchlorinereleaseelectrolysisSuchasseawaterelectrolysis,etc.Itisanelectrodematerialwithgoodoxygenreleasereactioninacidicmedium.Inthisenvironment,theavailableelectrodematerialsarelimited.Thecoatedelectrodehasbeenusedinorganicelectrolysis,suchascysteine,glyoxylicacid,succinicacid,etc.,whichcanbeusedforCr3+﹢→Cr6+electrolysisofindirectoxidationoforganicelectrolysis,andsewagetreatmentisusedtooxidizeorganicandtoxicsubstancesinwater.SuchasCN-transformation.Itcanalsobeusedintheelectroplatingindustryasauxiliaryelectrodes,suchasauxiliaryanodesforCrplating,auxiliaryanodesforelectrolyticcopper,andthelike. two,Ruthenium-titanium-iridium(Ru-Ti-Ir)ternarycoatingelectrodeThecoatedelectrodeisusedforelectrolytescontaininghighhydroxideradicals,isresistanttooxygencorrosion,andissuitableforionmembraneelectrolysis.Coatingindex:1.Thedischargepotentialis1.18volts(S.C.E)atacurrentdensityof4000A/m2.2.Strengthenedlife(coatingweightlossmethod)1.02mv/4hours4cm2,theservicelifeisguaranteedformorethan5years,andithasbeenappliedtoindustriallargeelectrictanks. Three,ruthenium-titanium-tin(Ru-Ti-Sn)ternarycoatingelectrode ThetechnologyhasbeensuccessfullydevelopedandhaswontheScienceandTechnologyProgressAwardoftheMinistryofChemicalIndustry.Coatingcharacteristics: 1.Thechlorineevolutionpotentialislowandtheoverpotentialissmall.At2000A/m2currentdensity,thechlorinegasdischargepotentialisnotgreaterthan1.12V,andtheoverpotentialislessthan20mv. 2.Thepolarizationrateislessthan30mv/10unitcurrentdensity. 3.Longerlife-span:0.5NH2SO4,1A/cm2currentdensity,lifespanisgreaterthan1500minutes. Theabovethreeindicatorsarebetterthantheindustryspecifiedindicators(industrialindicatorsare:potential1.13volts,polarizationrate40mv/10unitcurrentdensity,enhancedlifeisgreaterthan1000minutes). Fourth,titaniumplatinum(Ti/Pt)coatedelectrodeBasemetal:Gr1,Gr2,TA1,TA2 Workingcurrentrange:<2000A/m2 Temperaturerange:<80℃ Coatedmetal:Pt(99.99%) Shape:plate,tube,etc.Technicalcharacteristics:Itisaninsolubleanode.Theplatinumplatinglayerisfirmlycombinedwiththetitanium-basedsubstrateandtheuseperformanceisstable.Itcanreplacepuregoldandpureplatinumanodesforgoldandotherpreciousmetalplatingtanks.Application:Acidandalkalineplatingsolution Five,titanium-basedmaterialsprocessingrequirements:Surfaceroughness:Thereisnorelevantstandardforthisitem,therougherthebetter.Platenetanodesurfaceflatness:thickness1.5ormore≤±0.5mm/M,thickness1.0orless≥±1.0mm/M,Tubeanodestraightness:wallthickness1.5mmabove±0.5mm/M,wallthickness1.5mmbelow±1.0mm/MBlankingtoleranceofplateprocessedparts:theminimumcanbecontrolledwithin±0.1mm,andthegeneraldeliverytoleranceiswithin±0.5mm Six,theuseoftitaniumanodeproducts: DSAisnotatrueinsolubleanode,it'sjustthattheconsumptionrateislow.Dependingontheapplicationindustryandthespecificuseenvironment,ourcompanycanguaranteeaguaranteedserviceliferangingfrom0.5-50years.1.Withinthenormalworkingcurrentdensityof2000A/m²,theexcessivecurrentwillcausethereactiontobetoointenseandshortentheanodelife;2.Theelectrolytemustnotcontaincyanideandfluorideions.Theseimpuritiescanseverelycorrodethetitaniummatrix;3.Theanodeandanodepoledistancecanbesetaccordingtothespecificsituation,generally5-25mm.Generallyspeaking,thepoledistanceincreasesthepowerconsumption,andatthesametime,itshouldnotbetoosmall,otherwisethecathodescalegeneratedonthecathodesurfaceislikelytocausetheshortcircuitoftheplate;4.Itisstrictlyforbiddentouselead.Oncethepreciousmetaloxidecoatingisusedasacathode,areductionreactionoccursonthesurface,anditiseasytobeconvertedintoametalelement,whichcannoteffectivelycombinewiththetitaniumbase,causingthecoatingtofalloff.Considerperiodicallyaddingacidtocleanthesurfaceoftheplate.,5.Thetemperatureoftheelectrolyteshouldnotbetoohigh,theidealtemperatureis25-40°C.6.Rinsethesurfaceoftheplatewithcleanwaterduringshutdown.Itshouldnotbeimmersedinthesolutionforalongtimeafterpoweroff.Ifpossible,itisbesttomaintainasmallcurrentof2-5Atomeetthecycletoprotecttheplate.7,installationandhandlingneedtobecareful,thecoatingsurfacemustnotbescratched,otherwiselocalcorrosionwillsoon.
What does TOD, TOC, BOD, COD mean in industrial wastewater treatment? What is the connection between them?

What does TOD, TOC, BOD, COD mean in industrial wastewater treatment? What is the connection between them?

WhatdoesTOD,TOC,BOD,CODmeaninindustrialwastewatertreatment?Whatistheconnectionbetweenthem?Therearetwotypesofcomprehensiveindicatorsforthecontentoforganicmatterinwater.Oneisanindicatorthatisequivalenttotheamountoforganicmatterinwater(O2),suchasBOD,chemicaloxygendemand(COD),andtotaloxygendemand(TOD).;Theotherisanindicatorexpressedincarbon(c),suchastotalorganiccarbonTOC.Forthesamekindofsewage,thevalues​​oftheseindicatorsaregenerallydifferent,andtheorderofthevalues​​isTOD>COD>BOD5>TOC. 1.TOD Totaloxygendemand(TOD)referstotheamountofoxygenrequiredforreducingsubstancesinwatertobecomestableoxidesaftercombustionathightemperatures.Theresultsareexpressedinmg/L.TheTODvaluecanreflecttheoxygenrequiredtoconsumealmostallorganicmatterinwater(includingcarbonC,hydrogenH,oxygenO,nitrogenN,phosphorusP,sulfurSandothercomponents)aftercombustionintoCO2,H2O,NOx,SO2,etc.theamount. 2.TOC TotalorganiccarbonTOCisacomprehensiveindicatorthatindirectlyexpressesthecontentoforganicmatterinwater.Thedataitshowsisthetotalcarboncontentoforganicmatterinsewage.Theunitisexpressedinmg/Lofcarbon(c).TheTOCofgeneralurbansewagecanreach200mg/L,theTOCrangeofindustrialsewageiswide,thehighestcanreachtensofthousandsofmg/L,andtheTOCofsewageaftersecondarybiologicaltreatment-generally<50mg/L. 3.BODBOD Biochemicaloxygendemandiscalledbiochemicaloxygendemand,whichisabbreviatedasBOD.Itmeanstheamountofdissolvedoxygenconsumedduringthebiochemicaloxidationprocessofaerobicmicroorganismstodecomposeorganicmatterinwateratatemperatureof20°Candaerobicconditions.Theamountofoxygenrequiredtostabilizebiodegradableorganicsinwater,theunitismg/L.BODincludesnotonlytheamountofoxygenconsumedbythegrowthandreproductionofaerobicmicroorganismsinthewater,butalsotheamountofoxygenconsumedbyreducinginorganicsubstancessuchassulfidesandferrousiron,buttheproportionofthispartisusuallysmall. Undernaturalconditionsat20°C,thetimerequiredfortheorganicmattertooxidizetothenitrationstage,thatis,toachievecompletedecompositionstability,ismorethan100d.However,BOD20,whichiscommonlyusedat20°Cfor20d,approximatelyrepresentsthecompleteBOD.Itisstillconsideredthatthetimeof20distoolonginproductionandapplication.Generally,theBOD5ofBOD5of5dat20℃isusedasanindextomeasurethecontentoforganicmatterinsewage. 4.COD Chemicaloxygendemand(COD)referstotheamountofoxygenconvertedintooxygenbytheconsumptionoforganicsubstancesinwaterandstrongoxidantsundercertainconditions,inmg/Lofoxygen.Whenpotassiumdichromateisusedastheoxidant,almostalloftheorganicmatterinthewater(90%to95%)canbeoxidized.Atthistime,theamountofoxygenconsumedbytheoxidantconvertedintooxygenisgenerallycalledchemicaloxygendemand,whichisoftenabbreviatedasCODcr.TheCODcrvalueofwastewaterincludesnotonlytheoxygenconsumptionofalmostallorganicsubstancesinthewater,butalsotheoxygenconsumptionofreducinginorganicsubstancessuchasnitrites,ferroussalts,andsulfidesinthewater. 5.TherelationshipbetweenBOD5andCOD BOD5isnotonlyanimportantwaterqualityindicator,butalsoanextremelyimportantcontrolparameterinthebiologicaltreatmentprocessofsewage.However,duetothelongmeasurementtime(5d),itcannotreflectandguidetheoperationofthesewagetreatmentdeviceintime,andcanonlybeusedforprocesseffectevaluationandlong-termWangYiregulation.Foraspecificsewagetreatmentplant,thecorrelationbetweenBOD5andCODcanbeestablished,andaroughestimateoftheCOD5valueofCODisusedtoguidetheadjustmentofthetreatmentprocess.Sometimes,becausesomeproductionwastewaterdoesnothavetheconditionsforthegrowthandreproductionofmicroorganisms(suchasthepresenceoftoxicorganicsubstances),itsBOD5valuecannotbeaccuratelydetermined. Thechemicaloxygendemand(COD)valueofsewagecanbeusedtoaccuratelydeterminethecontentoforganicmatterinwater,butCODcannotdistinguishbetweenbiodegradableorganicmatterandnon-biodegradableorganicmatter.PeopleareusedtomeasuringtheBOD5/CODofsewagetodetermineitsbiodegradability.ItisgenerallybelievedthatsewagecanbetreatedbybiodegradationifitsBOD5/CODisgreaterthan0.3.IftheBOD5/CODofsewageislowerthan0.2.Onlyothermethodscanbeconsideredforprocessing. TheCODvalueofthechemicaloxygendemandisgenerallyhigherthantheBOD5valueofthebiochemicaloxygendemand,andthedifferencebetweenthemcanroughlyreflecttheorganicmattercontentinthesewagethatcannotbedegradedbymicroorganisms.Forsewagewithrelativelyfixedpollutantcomponents,thereisgenerallyacertainproportionalrelationshipbetweenCODandBOD5,whichcanbecalculatedfromeachother.Inaddition,themeasurementofCODtakeslesstime,andthenationalstandardmethodfor2hoursofrefluxisusedtoperformthetest.Ittakesonly3to4hoursfromthesamplingtotheresult,andtheBOD5valuetakes5days.CODisoftenusedasacontrolindicator. Inordertoguidetheproductionandoperationassoonaspossible,somesewagetreatmentplantshavealsoestablishedenterprisestandardsformeasuringCODfor5minutesatreflux.Althoughthemeasuredresultsaresomewhatdifferentfromthenationalstandardmethod,theerrorsaresystematicerrorsandtheresultsofcontinuousmonitoringcanaccuratelyreflectthewaterquality.Theactualchangetrendofthemeasurementtimecanbereducedtolessthan1h,whichprovidesatimeguaranteeforti
The principle of forced current cathodic protection and the relationship between auxiliary anode corrosion rate and current density

The principle of forced current cathodic protection and the relationship between auxiliary anode corrosion rate and current density

Theprincipleofforcedcurrentcathodicprotectionandtherelationshipbetweenauxiliaryanodecorrosionrateandcurrentdensity First,theprincipleofforcedcurrentcathodicprotection Thetraditionalmetalanti-corrosionmethodismainlyisolationandanti-corrosion,thatis,toisolatemetalfromcorrosivemedium.Specificmeasuresincludecoatings,coatings,andplating.Anothermethodistochooseacorrosion-resistantmetal,suchasstainlesssteel,copper,titanium,etc.;orothermaterialssuchasplastic,fiberglass,etc.ifpossible. However,becausethecorrosiveenvironmentisalmostubiquitous,theformsofcorrosionarealsovarious.Asingleanti-corrosionmeasureoftencannoteffectivelycontrolmetalcorrosion,especiallyelectrochemicalcorrosion.Onceametalstructureisformedwithacorrodedbattery,theanoderegionhasamuchsmallerareathanthecathoderegion,andthecorrosionrateisextremelyfast.Atthistime,themetalsurfaceisnotuniformcorrosion,butpittingcorrosion.Almostallundergroundoilandgaspipelines,storagetanks,andvariouscontainersandequipmentcontainingelectrolytesleakduetopittingcorrosion. Cathodicprotectionistheuseoftheprincipleofcorrodingthebattery.Themetalstructuretobeprotectedisusedasthecathode,andtheanodeiscontinuouslysuppliedwithelectronsthroughtheanode.Thestructureisfirstpolarizedandtheelectronsareenrichedonthesurfaceofthestructure,makingitdifficulttogenerateions.Greatlyslowdowntherateofcorrosionofthestructure.Cathodicprotectionisroughlydividedintotwotypes:sacrificialanodemethodandappliedcurrentmethod(forcedcurrent).Theanodesusedinthesacrificialanodemethodaremagnesium,aluminum,andzincactivemetalalloyanodes;theanodesusedintheforcedcurrentmethodareMMO(mixedmetaloxide)titanium-basedcoatinganodesasauxiliaryanodes.Theforcedcurrentmethod(externalcurrentmethod)istoapplyacathodiccurrenttotheprotectedstructureandananodecurrenttotheauxiliaryanodetoformacorrodedbattery.Themetalstructureisprotectedonthesameprinciple.Itiseconomicalandhasalonganodeservicelifewhenimplementinglarge-scalefieldcathodicprotection.  Externalcurrentcathodicprotectionauxiliaryanode Second,therelationshipbetweenauxiliaryanodecorrosionrateandcurrentdensity Relationshipbetweenanodecurrentdensityandcoatingconsumption Relationshipbetweenanodecurrentdensityandlife Asshowninthefigureabove,astheanodecurrentdensityincreases,theconsumptionrateofthecoatingalsoincreases,andtheservicelifealsodecreases.

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Jiangsu Yianteng is subordinate to Suzhou Fenggang Titanium Equipment Manufacturing Co., Ltd. It is a  enterprise specializing in R & D and production of Insoluble Anode and related equipment. Relying on the 30-year R & D and manufacturing practice of Fenggang company, yianteng adopts the international advanced production facilities, process standards and management system, and strives to provide the most perfect and cost-effective electrochemical solutions for the global partners.

 

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