光催化氧化废气净化设备光催化氧化废气净化设备是一项成熟的工艺，工艺有效性的关键在于紫外线的强度和催化剂的催化能力以及催化时间。从光触媒空气净化器到光催化废气净化设备，能够发现许多非常不科学的设计，光催化应用技术工艺简单、成本低廉,利用自然光即可催化分解***和污染物,具有高催化活性、良好的化学稳定性和热稳定性、无二次污染、无刺激性、安全***等特点,且能长期有益于生态自然环境PhotocatalyticoxidationwastegaspurificationequipmentThephotocatalyticoxidationofwastegaspurificationequipmentisamatureprocess.Thekeytotheefficiencyoftheprocessistheintensityofultr***ioletradiation,thecatalyticabilityofthecatalystandthetimeofcatalysis.Fromthephotocatalystairpurifiertothephotocatalyticwastegaspurificationequipment,manyveryunscientificdesignscanbefound.Photocatalyticapplicationtechnologyissimpleandlowcost.Itcancatalyzethedecompositionofbacteriaandpollutantswithnaturallight.Ithashighcatalyticactivity,goodchemicalstabilityandthermalstability,notwopollution,noprickle.Stimulating,safe,non-toxic,andlong-termbeneficialtotheecologicalandnaturalenvironment,itisoneofthegreenenvironmentalprotectioncatalytictechnologieswithdevelopmentprospects.Theprincipleofproducttechnology:1.ThisproductusesspecialhighenergyandhighozoneUVultr***ioletlightbeamtoirradiatetheodorgasandchangetheodorgassuchasammonia,trimethylamine,hydrogensulfide,methylthiol,methionine,methionine,twoa,twosulfur,carbondisulfideandstyrene,sulfidesH2S,VOC,benzene,toluene,xyleneandmolecularchainstructure,soastomakeorganicorThemolecularchainofinorganicmacromoleculeodorouscompoundsisdegradedtolowmolecularweightcompounds,suchasCO2andH2O,undertheirradiationofhigh-energyultr***ioletlight.Two,theuseofhighenergyhighozoneUVultr***ioletlightbeamdecompositionofoxygenmoleculesintheairtoproducefreeoxygen,thatis,activeoxygen,becausethefreeoxygenisnotbalancedwiththepositiveandnegativeelectr***,soitisnecessarytocombinewithoxygenmolecules,andthenproduceozone.UV+O2-O-+O*(activeoxygen)O+O2-O3(ozone),itisknownthatozonehasaverystrongoxidationeffectonorganicmatter,andhasanimmediateclearanceeffectonodorgasandotherirritatingodors.Three.Afterinputtingtheexhaustequipmentintothepurificationequipment,thepurificationequipmentusesthehigh-energyUVultr***ioletlightbeamandtheozonetodecomposetheodourgasinsynergisticoxidationreaction,sothatthedegradationoftheodorgasisconvertedintolowmolecularcompound,waterandcarbondioxide,andthenoutdoorsthroughtheexhaustpipe.Four.UsinghighenergyUVbeamtobreakthemolecularkeyofbacteriaintheodorgas,destroythenucleicacid(DNA)ofbacteria,andthenoxidizethebacteriabyozone,soastoachievethepurposeofdeodorizingandkillingbacteriacompletely.Technicalfeatures:(1)lowtemperaturedepthreaction:Photocatalyticoxidationcancompletelyoxidizeorganicpollutantsinair,waterandsoiltoinnocuousandharmlesssubstancesatnormaltemperature.Thetraditionalhightemperatureincinerationtechnologyneedstodestroythepollutantsataveryhightemperature,thatis,theuseofconventionalcatalyticoxidationmethodsalsorequiresafewBaiduhightemperatures.(2)thoroughpurification:Itdirectlyoxidizetheorganicpollutantsintheairintonon-toxicandharmlesssubstances,withoutle***ingnotwopollution.Atpresent,theactivecarbonadsorptionmethodiswidelyusedtoremovepollutants,butonlytransferthesourceofpollution.(3)greenenergy:Photocatalysiscanusesunlightasanenergysourcetoactivatethephotocatalyst,driveoxidationreductionreaction,andthephotocatalystdoesnotc***umeinthereactionprocess.Fromanenergyperspective,thischaracteristicmakesthephotocatalytictechnologymoreattractive.(4)strongoxidation:Alargenumberofstudiesh***eshownthatsemiconductorphotocatalysisischaracterizedbystrongoxidation,whichcanbeeffectivelydecomposedtosomeorganiccompounds,suchaschloroform,carbontetrachloride,andsixchlorobenzene,whicharedifficulttooxidizebyozone.Sotheorganicmatterwhichisdifficulttodegradeisofspecialsignificance.TheeffectiveoxygenatorofPhotocatalyticisOH,OHoxygen.Itschemicalpropertiesarehigherthancommonozone,hydrogenperoxide,PotassiumPermanganate,hypochloriteandsoon.(5)broad-spectrum:Photocatalyticcatalysisiseffectiveformanykindsoforganiccompoundsfromhydrocarb***tocarboxylicacids.NoneoftheninemajorcategoriesofpollutantspublishedbytheEPAh***ebeenconfirmedbyphotocatalytictreatment,eveniftheatomicorganicssuchashalogenatedhydrocarb***,dyes,nitrogencontainingorganiccompoundsandorganophosphorusinsecticidesh***eexcellentremovaleffect,andthegeneralreactioncanbeachievedingeneral.Completelypurify.(6)longlife:Intheory,thelifeofthecatalystisinfinitelylong.,是具有开发前景的绿色环保催化技术之一。产品技术原理：一、本产品利用***的高能高臭氧UV紫外线光束照射恶臭气体，改变恶臭气体如：氨、***胺、***、甲硫氢、甲硫醇、甲硫醚、、***和苯乙烯，硫化物H2S、VOC类，苯、***、二***的分子链结构，使有机或无机高分子恶臭化合物分子链，在高能紫外线光束照射下，降解转变成低分子化合物，如CO2、H2O等。二、利用高能高臭氧UV紫外线光束分解空气中的氧分子产生游离氧，即活性氧，因游离氧所携正负电子不平衡所以需与氧分子结合，进而产生臭氧。UV＋O2→O-+O＊(活性氧)O+O2→O3(臭氧),众所周知臭氧对有机物具有极强的氧化作用，对恶臭气体及其它刺激性异味有***的清除效果。三、恶臭气体利用排风设备输入到本净化设备后，净化设备运用高能UV紫外线光束及臭氧对恶臭气体进行协同分解氧化反应，使恶臭气体物质其降解转化成低分子化合物、水和二氧化碳，再通过排风管道排出室外。四、利用高能UV光束裂解恶臭气体中***的分子键，******的核酸（DNA），再通过臭氧进行氧化反应，彻底达到脱臭及杀灭***的目的。技术特点：（1）低温深度反应：光催化氧化可在常温将空气、水和土壤中有机污染物完全氧化成***无害的物质。而传统的高温焚烧技术则需要在极高的温度下才可将污染物摧毁，即使用常规的催化氧化方法亦需要几百度的高温。（2）净化彻底：它直接将空气中的有机污染物，完全氧化成***无害的物质，不留任何无二次污染，目前广泛采用活性炭吸附法不分解污染物，只是将污染源转移。（3）绿色能源：光催化可利用太阳光作为能源来活化光催化剂，驱动氧化一还原反应，而且光催化剂在反应过程中并不消耗。从能源角度而言，这一特征使光催化技术更具魅力。（4）氧化性强：大量研究表明，半导体光催化具有氧化性强的特点，对臭氧难以氧化的某些有机物如、***、六***、都能有效地加以分解，所以难以降解的有机物具有特别意义，光催化的有效氧化剂是羟基自由基（OH），OH的氧化性高于常见的臭氧、***、、次氯酸等。（5）广谱性：光催化对从烃到羧酸的种类众多有机物有效，没过环保署公布的九大类14中污染物均被证实可通过光催化得到治理，即使对原子有机物如卤代烃、染料、含氮有机物、有机磷***也有***的去除效果，一般经过持续反应可达到完全净化。（6）寿命长：理论上，催化剂的寿命是无限长。PhotocatalyticoxidationwastegaspurificationequipmentThephotocatalyticoxidationofwastegaspurificationequipmentisamatureprocess.Thekeytotheefficiencyoftheprocessistheintensityofultr***ioletradiation,thecatalyticabilityofthecatalystandthetimeofcatalysis.Fromthephotocatalystairpurifiertothephotocatalyticwastegaspurificationequipment,manyveryunscientificdesignscanbefound.Photocatalyticapplicationtechnologyissimpleandlowcost.Itcancatalyzethedecompositionofbacteriaandpollutantswithnaturallight.Ithashighcatalyticactivity,goodchemicalstabilityandthermalstability,notwopollution,noprickle.Stimulating,safe,non-toxic,andlong-termbeneficialtotheecologicalandnaturalenvironment,itisoneofthegreenenvironmentalprotectioncatalytictechnologieswithdevelopmentprospects.Theprincipleofproducttechnology:1.ThisproductusesspecialhighenergyandhighozoneUVultr***ioletlightbeamtoirradiatetheodorgasandchangetheodorgassuchasammonia,trimethylamine,hydrogensulfide,methylthiol,methionine,methionine,twoa,twosulfur,carbondisulfideandstyrene,sulfidesH2S,VOC,benzene,toluene,xyleneandmolecularchainstructure,soastomakeorganicorThemolecularchainofinorganicmacromoleculeodorouscompoundsisdegradedtolowmolecularweightcompounds,suchasCO2andH2O,undertheirradiationofhigh-energyultr***ioletlight.Two,theuseofhighenergyhighozoneUVultr***ioletlightbeamdecompositionofoxygenmoleculesintheairtoproducefreeoxygen,thatis,activeoxygen,becausethefreeoxygenisnotbalancedwiththepositiveandnegativeelectr***,soitisnecessarytocombinewithoxygenmolecules,andthenproduceozone.UV+O2-O-+O*(activeoxygen)O+O2-O3(ozone),itisknownthatozonehasaverystrongoxidationeffectonorganicmatter,andhasanimmediateclearanceeffectonodorgasandotherirritatingodors.Three.Afterinputtingtheexhaustequipmentintothepurificationequipment,thepurificationequipmentusesthehigh-energyUVultr***ioletlightbeamandtheozonetodecomposetheodourgasinsynergisticoxidationreaction,sothatthedegradationoftheodorgasisconvertedintolowmolecularcompound,waterandcarbondioxide,andthenoutdoorsthroughtheexhaustpipe.Four.UsinghighenergyUVbeamtobreakthemolecularkeyofbacteriaintheodorgas,destroythenucleicacid(DNA)ofbacteria,andthenoxidizethebacteriabyozone,soastoachievethepurposeofdeodorizingandkillingbacteriacompletely.Technicalfeatures:(1)lowtemperaturedepthreaction:Photocatalyticoxidationcancompletelyoxidizeorganicpollutantsinair,waterandsoiltoinnocuousandharmlesssubstancesatnormaltemperature.Thetraditionalhightemperatureincinerationtechnologyneedstodestroythepollutantsataveryhightemperature,thatis,theuseofconventionalcatalyticoxidationmethodsalsorequiresafewBaiduhightemperatures.(2)thoroughpurification:Itdirectlyoxidizetheorganicpollutantsintheairintonon-toxicandharmlesssubstances,withoutle***ingnotwopollution.Atpresent,theactivecarbonadsorptionmethodiswidelyusedtoremovepollutants,butonlytransferthesourceofpollution.(3)greenenergy:Photocatalysiscanusesunlightasanenergysourcetoactivatethephotocatalyst,driveoxidationreductionreaction,andthephotocatalystdoesnotc***umeinthereactionprocess.Fromanenergyperspective,thischaracteristicmakesthephotocatalytictechnologymoreattractive.(4)strongoxidation:Alargenumberofstudiesh***eshownthatsemiconductorphotocatalysisischaracterizedbystrongoxidation,whichcanbeeffectivelydecomposedtosomeorganiccompounds,suchaschloroform,carbontetrachloride,andsixchlorobenzene,whicharedifficulttooxidizebyozone.Sotheorganicmatterwhichisdifficulttodegradeisofspecialsignificance.TheeffectiveoxygenatorofPhotocatalyticisOH,OHoxygen.Itschemicalpropertiesarehigherthancommonozone,hydrogenperoxide,PotassiumPermanganate,hypochloriteandsoon.(5)broad-spectrum:Photocatalyticcatalysisiseffectiveformanykindsoforganiccompoundsfromhydrocarb***tocarboxylicacids.NoneoftheninemajorcategoriesofpollutantspublishedbytheEPAh***ebeenconfirmedbyphotocatalytictreatment,eveniftheatomicorganicssuchashalogenatedhydrocarb***,dyes,nitrogencontainingorganiccompoundsandorganophosphorusinsecticidesh***eexcellentremovaleffect,andthegeneralreactioncanbeachievedingeneral.Completelypurify.(6)longlife:Intheory,thelifeofthecatalystisinfinitelylong.)