Influence of earth gravity on reaction engineering of tubular reactor for high concentration tungsten ion-exchange

The influence of gravity on the reaction engineering of tubular reactor is studied by analyzing the residence time distribution curves.The results show that upflow-feeding mode is more beneficial compared with downflow-feeding mode,since the flow pattern of the fluid in the reactor is closer to plug...

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Published in	Transactions of Nonferrous Metals Society of China Vol. 20; no. 12; pp. 2379 - 2386
Main Author	赵中伟肖露萍郭持皓陈星宇陈爱良霍广生李洪桂
Format	Journal Article
Language	English
Published	Elsevier Ltd 01.12.2010 School of Metallurgical Science and Engineering, Central South University, Changsha 410083, China
Subjects	China downflow-feeding mode Fluid dynamics Fluid flow Gravitation reaction engineering Reactors Residence time distribution Tungsten tungsten ion-exchange Tungsten oxides upflow-feeding mode 反应工程喂养方式浓度增加离子交换柱管式反应器钨冶金 downflow-feeding mode reaction engineering upflow-feeding mode tungsten ion-exchange
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ISSN	1003-6326
DOI	10.1016/S1003-6326(10)60658-9

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Abstract	The influence of gravity on the reaction engineering of tubular reactor is studied by analyzing the residence time distribution curves.The results show that upflow-feeding mode is more beneficial compared with downflow-feeding mode,since the flow pattern of the fluid in the reactor is closer to plug flow.The result of dynamic experiment conducted in ion-exchange of tungsten metallurgy is as good as that in reaction engineering of ion-exchange column.Whether downflow-feeding or upflow-feeding mode is adopted,breakthrough time decreases when solution concentration increases.Upflow-feeding mode has longer breakthrough time and greater improvement in adsorption capacity especially with high WO3 concentration in ion-exchange.
AbstractList	The influence of gravity on the reaction engineering of tubular reactor is studied by analyzing the residence time distribution curves. The results show that upflow-feeding mode is more beneficial compared with downflow-feeding mode, since the flow pattern of the fluid in the reactor is closer to plug flow. The result of dynamic experiment conducted in ion-exchange of tungsten metallurgy is as good as that in reaction engineering of ion-exchange column. Whether downflow-feeding or upflow-feeding mode is adopted, breakthrough time decreases when solution concentration increases. Upflow-feeding mode has longer breakthrough time and greater improvement in adsorption capacity especially with high WO sub(3) concentration in ion-exchange. TG1; The influence of gravity on the reaction engineering of tubular reactor is studied by analyzing the residence time distribution curves. The results show that upflow-feeding mode is more beneficial compared with downflow-feeding mode, since the flow pattern of the fluid in the reactor is closer to plug flow. The result of dynamic experiment conducted in ion-exchange of tungsten metallurgy is as good as that in reaction engineering of ion-exchange column. Whether downflow-feeding or upflow-feeding mode is adopted, breakthrough time decreases when solution concentration increases. Upflow-feeding mode has longer breakthrough time and greater improvement in adsorption capacity especially with high WO3 concentration in ion-exchange. The influence of gravity on the reaction engineering of tubular reactor is studied by analyzing the residence time distribution curves.The results show that upflow-feeding mode is more beneficial compared with downflow-feeding mode,since the flow pattern of the fluid in the reactor is closer to plug flow.The result of dynamic experiment conducted in ion-exchange of tungsten metallurgy is as good as that in reaction engineering of ion-exchange column.Whether downflow-feeding or upflow-feeding mode is adopted,breakthrough time decreases when solution concentration increases.Upflow-feeding mode has longer breakthrough time and greater improvement in adsorption capacity especially with high WO3 concentration in ion-exchange. The influence of gravity on the reaction engineering of tubular reactor is studied by analyzing the residence time distribution curves. The results show that upflow-feeding mode is more beneficial compared with downflow-feeding mode, since the flow pattern of the fluid in the reactor is closer to plug flow. The result of dynamic experiment conducted in ion-exchange of tungsten metallurgy is as good as that in reaction engineering of ion-exchange column. Whether downflow-feeding or upflow-feeding mode is adopted, breakthrough time decreases when solution concentration increases. Upflow-feeding mode has longer breakthrough time and greater improvement in adsorption capacity especially with high WO 3 concentration in ion-exchange.
Author	赵中伟肖露萍郭持皓陈星宇陈爱良霍广生李洪桂
AuthorAffiliation	School of Metallurgical Science and Engineering, Central South University, Changsha 410083, China
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Cites_doi	10.1016/S0304-386X(99)00041-9 10.1016/j.seppur.2008.08.009 10.1029/91WR00837 10.1016/j.supflu.2007.09.030 10.1029/2001WR001244
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SubjectTerms	China downflow-feeding mode Fluid dynamics Fluid flow Gravitation reaction engineering Reactors Residence time distribution Tungsten tungsten ion-exchange Tungsten oxides upflow-feeding mode 反应工程喂养方式浓度增加离子交换柱管式反应器钨冶金
Title	Influence of earth gravity on reaction engineering of tubular reactor for high concentration tungsten ion-exchange
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