Pretreatment of Immobilized Candida antarctica Lipase for Biodiesel Fuel Production from Plant Oil
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概要
- 論文の詳細を見る
The effects of the pretreatment of immobilized Candida antarctica lipase enzyme (Novozym 435) on methanolysis for biodiesel fuel production were investigated. Methanolysis progressed much faster when Novozym 435 was preincubated in methyl oleate for 0.5 h and subsequently in soybean oil for 12 h. The initial reaction rate of methanolysis catalyzed by both the non-treated and preincubated enzyme decreased significantly with increasing water content. The initial reaction rate increased with increasing methanol content, showed a maximum, and thereafter decreased when the methanol content was increased further. The variation of the initial reaction rate with the methanol content was therefore analyzed using a Michaelis-Menten-type equation with substrate inhibition. Based on this equation, a procedure for the stepwise addition of methanol to the reaction mixture so as to maintain the desired methanol content was determined. When preincubated Novozym 435 was used, the ME content reached over 97% within 3.5 h by stepwise addition of 0.33 molar equivalent of methanol at 0.25-0.4 h intervals.
- 社団法人日本生物工学会の論文
- 2000-08-25
著者
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Kondo Akihiko
Department of Chemical Science and Engineering, Graduate School of Engineering, Kobe University
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FUKUDA HIDEKI
Division of Molecular Science, Graduate School of Science and Technology, Kobe University
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Fukuda Hideki
Organization Of Advanced Science And Technology Kobe University
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Fukuda H
Kobe Univ. Kobe
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Fukuda Hideki
Department Of Molecular Science And Material Engineering Graduate School Of Science And Technology K
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Fukuda H
Kobe Univ. Kobe Jpn
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MATSUMOTO Takeshi
Department of Hematology, Mie University Graduate School of Medicine
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Shimada Y
Department Of Biochemistry Osaka Municipal Technical Research Institute
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Shimada Y
Department Of Physics Chuo University:tecmo
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Shimada Yuji
Osaka Municipal Technical Research Institute
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Fukuda Hideki
Division Of Molecular Science Graduate School Of Science And Technology Kobe University
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Kondo Akihiko
Department Of Bioactive Molecules National Institute Of Infectious Diseases
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MATSUMOTO TAKESHI
Division of Molecular Science, Graduate School of Science and Technology, Kobe University
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Ban Kazuhiro
Division Of Molecular Science Graduate School Of Science And Technology Kobe University
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Noda Hideo
Bio-energy corporation
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Matsumoto Takeshi
Department Of Biomechanical Engieering Graduate School Of Engineering Scien
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Fukuda Hideo
Dept. Appl. Microbial Technology Kumamoto Institute Of Technology
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Noda Hideo
Kansai Chemical Engineering Co. Ltd.
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KAIEDA MASARU
Department of Chemical Science and Engineering, Faculty of Engineering, Kobe University
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SAMUKAWA TAICHI
Department of Chemical Science and Engineering, Faculty of Engineering, Kobe University
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Samukawa Taichi
Department Of Chemical Science And Engineering Faculty Of Engineering Kobe University
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Kaieda Masaru
Department Of Chemical Science And Engineering Faculty Of Engineering Kobe University
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Kondo Akihiko
Department Of Applied Chemistry Kyushu Institute Of Technology
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Kondo Akihiko
Department Of Applied Chemistry Faculty Of Engineering Kyushu Institute Of Technology
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Matsumoto Takeshi
Division Of Molecular Science Graduate School Of Science And Technology Kobe University
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Matsumoto Takeshi
Department Of Biology Faculty Of Science Kumamoto University
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Fukuda Hideki
Division Of Bioscience The Graduate School Of Science And Technology Kobe University
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Matsumoto Takeshi
Department Of Mechanical Science And Bioengineering Graduate School Of Engineering Science Osaka Univ
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