2016 | Advanced Separation Operation

2016　Advanced Separation Operation

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Academic unit or major: Graduate major in Chemical Science and Engineering

Instructor(s): Ito Akira

Class Format: Lecture

Media-enhanced courses

Day/Period(Room No.): Mon1-2(S421) Thr3-4(S421)

Group: -

Course number: CAP.C442

Credits: 2

Academic year: 2016

Offered quarter: 4Q

Syllabus updated: 2016/4/27

Lecture notes updated: 2016/11/29

Language used: English

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Course description and aims

This course provides an overview of separation operations. Then basic equilibrium and design methods are presented for unit operations of distillation, absorption, extraction, adsorption, chromatography, crystallization, evaporation, humidity conditioning, drying, membrane separation for water and gas and vapor membrane separation.
The aim of this course is learning model making of each unit operation and individual design method.

Student learning outcomes

Aim: Understanding of basic equilibrium and equipment or process model in each unit operations. Gaining skills on equipment design.
Theme: This course teaches equilibrium relations and kinetics of mass transfer operations by calculation examples.

Keywords

Unit operation, distillation, absorption, extraction, adsorption, chromatography, crystallization, evaporation, humidity conditioning, drying, membrane separation for water and gas and vapor membrane separation

Competencies that will be developed

✔ Specialist skills

✔ Intercultural skills

Communication skills

Critical thinking skills

Practical and/or problem-solving skills

Class flow

This course uses an original printed text. Every section has Excel examples and problems.

Course schedule/Required learning

	Course schedule	Required learning
Class 1	Base of separation processes	Explain kinds of separation processes and these basic equilibrium
Class 2	distillation(1) vapor-liquid equilibrium, simple distillaiton	Understand analysis of simple distillaiton
Class 3	distillation(2) binary distillaiton	Understand analysis of binary distillaiton
Class 4	distillation (3) multi component distillation, azeotropic distillation	Understand analysis of multi component distillation
Class 5	Absorption (1) gas-liquid equilibrium	Explain gas-liquid equilibrium
Class 6	Absorption (3) design model of absorption tower	Explain design method of absorption tower hight
Class 7	Extraciton	Understand liquid-liquid equilibrium and mass balance in extraction
Class 8	Adsorption	Explain principle of breakthrough curve
Class 9	Chromatography	Explain plinciple of cheomatography
Class 10	Crystallization and evaporation	Explain calculation of multiple effect evaporator
Class 11	Humidity conditioning	Understand principle of wet bulb temperature
Class 12	Drying	Explain constant rate period and falling rate period of drying
Class 13	Membrane separation (1) remembrane filtration	Explain classification of membrane separation
Class 14	Membrane separation (2) permeation model	Understand permeation model
Class 15	Membrane separation (3) gas and vapor separation	Explain model calculaiton of membrane module

Textbook(s)

Original text

Reference books, course materials, etc.

A. Ito: Basic separation engineering, Kagaku-dojin

Assessment criteria and methods

exercises in all lectures 25%, final examination 75%

Related courses

mass transfer operaitons

Prerequisites (i.e., required knowledge, skills, courses, etc.)

none

TOKYO INSTITUTE OF TECHNOLOGY