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過去(2019年度)の授業の情報です
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最終更新日:2024年3月15日

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国際連携特別講義IV

2019年度 SNUとの短期集中コースプログラム
Short Intensive Course Program between School of Engineering, the University of Tokyo and College of Engineering, Seoul National University

The purpose of this course program is to develop academic and educational cooperation on the basis of equality and reciprocity between both institutions and to internationalize curricula and student experiences.
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時間割/共通科目コード
コース名
教員
学期
時限
3799-298
GEN-CO6x23L3
国際連携特別講義IV
各教員
S1 S2
集中
マイリストに追加
マイリストから削除
講義使用言語
英語
単位
2
実務経験のある教員による授業科目
NO
他学部履修
開講所属
工学系研究科
授業計画
Title of the Lecture: Chemical Reactor Design (化学反応器設計) Date:  July 29, 2019 - August 2, 2019  5 days Overview: The goal of this course is to enable the student to develop a clear understanding of the fundamentals of chemical reactor design. The students are able to derive and solve steady-state and transient material balance with reaction. To learn how to apply the fundamental principles of chemical kinetics to the design of chemical reactors for both homogeneous and heterogeneous cases. To provide an integrated study of fundamentals and quantitative design techniques of batch and flow chemical reactors applying fundamental knowledge of mathematics, science and engineering. To solve chemical engineering reaction problems, it will be introduced a mass customization concept by means of modulation. The modules in reactor design algorithm include (1) mole balance in reactor system, (2) type of reactors (Batch, CSTR, PFR, PBR, fluidized CSTR, membrane reactor, semibatch reactor, and differential reactor), (3) rate laws (element reaction, non-element reaction, bio-reaction, photochemical reaction, heterogeneous reaction) (4) stoichiometry, and (5) pressure drop. After lecture, students can design logically the various reactors which can carry out numerous reactions by combination of modules or can analysis data collected from a reactor. Reactors that carry out bioreaction and heterogeneous catalysis will be covered. # Schedule Monday, July 29 10:20-11:50 Industrial reactors 12:50-14:20 Module 1: General mole balance equation 15:00-16:30 Module 2: Ideal reactors Tuesday, July 30 10:20-11:50 Module 3: Kinetics, rate law 12:50-14:20 Module 4: Stoichiometry 15:00-16:30 Module 5: Pressure drop Wednesday, July 31 10:20-11:50 Construction 1: Ideal reactor design by algorithm 12:50-14:20 Construction 2: Data analysis 15:00-16:30 Construction 3: Multiple reaction Thursday, August 1 10:20-11:50 Construction 4: Polymath application 12:50-14:20 Construction 5: Bioreactor 15:00-16:30 Construction 6: Catalytic reactor Friday, August 2 10:20-11:50 Construction 7: Scale-up of CSTR 12:50-14:20 Examination
成績評価方法
Oral Lecture + Written Examination
履修上の注意
基礎を固める(工学部共通)