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催化学报  2012 

CeramicsinEnvironmentalCatalysis:ApplicationsandPossibilities

DOI: 10.1016/S1872-2067(11)60440-3, PP. 1611-1621

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Abstract:

?Environmentalcatalysishasbeensteadilygrowingbecauseoftheadvancesinitsscientificandengineeringaspects,aswellasduetothenewenvironmentalchallengesintheindustrialera.Thedevelopmentofnewcatalystsandmaterialsisessentialfornewtechnologiesforvariousenvironmentalapplications.Ceramicsplayimportantrolesinvariousenvironmentalapplicationsincludingtheidentification,monitoring,andquantificationofpollutantsandtheircontrol.Ceramicshaveimportantapplicationsassensorsandphotocatalysts,andtheyareextensivelyusedascatalystcarriersandsupports.Manyceramicsarebeingexploredascatalystsforpollutioncontrolapplications.Theirlowcost,thermalandchemicalstability,andcapabilityofbeingtailoredmakethemespeciallyattractiveforpollutioncontrolapplications.Althoughawidevarietyofmaterialshavebeendevelopedascatalystsupports,thisareaisstillofinterestwithnewormodifiedcatalystsupportsbeingfrequentlyreported.Itisofequalimportancetodevelopnewormodifiedprocessesfortheloadingofcatalystsonspecificsupports.Applicationslikechemicalloopingcombustion(CLC)andothercatalyticcombustionprocessesareraisingthedemandstoanewscale.Wehavebeenworkingonthedevelopmentofbothnewandmodifiedsupportmaterials,includingmesoporousmaterialswithoutstructuralorderforpossibleapplicationsinCLCandothercatalyticreactions.Successfulattemptshavebeenmadeinthemodificationofconventionalγ-Al2O3andimprovedsynthesisprocessesforsupportingperovskitetypecatalysts.Ourresearchonenvironmentalcatalysisapplicationsofceramicmaterialsandprocessesarealsobrieflydiscussed.

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