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100   $a20230223d2016      uy             0
101 0 $aeng
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181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 00$aAdvances in catalyst deactivation /$fedited by Calvin H. Bartholomew, Morris D. Argyle
210  1$aBasel :$cMDPI,$d[2016]
210  4$dİ2016
215   $a1 online resource (x, 300 pages) $cillustrations
330   $aCatalyst deactivation, the loss over time of catalytic activity and/or selectivity, is a problem of great and continuing concern in the practice of industrial catalytic processes. Costs to industry for catalyst replacement and process shutdown total tens of billions of dollars per year. While catalyst deactivation is inevitable for most processes, some of its immediate, drastic consequences may be avoided, postponed, or even reversed. Accordingly, there is considerable motivation to better understand catalyst decay and regeneration. Indeed, the science of catalyst deactivation and regeneration has been developing rapidly as evidenced by the considerable literature addressing this topic, including 21,000 journal articles, presentations, reports, reviews, and books; and more than 29,000 patents for the period of 1980 to 2012. This developing science provides the foundation for continuing, substantial improvements in the efficiency and economics of catalytic processes through development of catalyst deactivation models, more stable catalysts, and regeneration processes.This special issue focuses on recent advances in catalyst deactivation and regeneration, including advances in (1) scientific understanding of mechanisms; (2) development of improved methods and tools for investigation; and (3) more robust models of deactivation and regeneration.
606   $aCatalyst poisoning
615  0$aCatalyst poisoning.
676   $a553.0973
702   $aBartholomew$b Calvin H.
702   $aArgyle$b Morris D.
801  0$bNjHacI
801  1$bNjHacl
906   $aBOOK
912   $a9910765736803321
996   $aAdvances in Catalyst Deactivation$92936292
997   $aUNINA