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Systematic structure generation for reactive distillation processes
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Cited by 32 publications
(14 citation statements)
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“…Further increasing methanol will result in either (1) reducing TAME purity, given that most of the excess methanol will leave the column in the bottoms, or (2) reducing the conversion and TAME production rate by having some of the TAME leave in the distillate. The first situation is called "direct synthesis" and the second is called "indirect synthesis" (Giessler et al, 2001;Ung and Doherty, 1995). Both of these situations are undesirable.…”
Section: Effect Of Excess Methanolmentioning
confidence: 99%
“…Further increasing methanol will result in either (1) reducing TAME purity, given that most of the excess methanol will leave the column in the bottoms, or (2) reducing the conversion and TAME production rate by having some of the TAME leave in the distillate. The first situation is called "direct synthesis" and the second is called "indirect synthesis" (Giessler et al, 2001;Ung and Doherty, 1995). Both of these situations are undesirable.…”
Section: Effect Of Excess Methanolmentioning
confidence: 99%
“…Various activity coefficient models such as WILSON (Simandl and Svrcek, 1991), NRTL (Giessler et al, 2001), UNIFAC (Kiatkittipong et al, 2011) were used by researchers for the 13-stage column example of Suzuki et al (1971). NRTL (Non-Random Two Liquid model) is one of the most successful among them, which is recommended for highly non-ideal chemical systems, and can be used for VLE and LLE applications (Aspen Plus, 2010).…”
Section: Model For Tray Column Simulationmentioning
confidence: 99%
“…L'analyse des régimes permanents repose sur l'observation suivante : Une opération unitaire quelle qu'elle soit, fonctionnant en régime permanent, peut être caractérisée par un ensemble de valeurs défi nissant les performances de la séparation ainsi que par les paramètres de fonctionnement spécifi ques à cette opération et permettant d'atteindre ces performances : c'est la notion de point de fonctionnement. Giessler et al (1998Giessler et al ( , 1999Giessler et al ( , 2001) ont exploité ces concepts afi n de développer une procédure visant à déterminer les performances maximales accessibles par un procédé de distillation réactive, et à fournir des informations concernant la structure générale de la colonne associée. L'intérêt de l'analyse des régimes permanents est de pouvoir faire varier le taux de conversion accessible par la réaction chimique, d'évaluer pour chaque cas la faisabilité de l'opération, et enfi n de sélectionner le régime le plus performant.…”
Section: Analyse Des Régimes Permanentsunclassified
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