Master's Program Map

1

Credit Structure for Master Classes

 

 

 

 

1

 

 

 

 

 

 

 

 

   1

Notes

 1. Graduation Credits﹕36 credit
  (1) 2 credit from the required courses. (including Research on Special Topics   (1)(2))
  (2) 28 credit hours from the elective courses.
  (3) 6 credits of thesis. (grant after passing the degree exam.)

 2. Max.of 3 credit hours outside of CME Department and Biomed Graduate

     Institute are counted for graduation requirement.

 3. Students have to take at least 1 course from 6 core elective courses.

 4. Seminar (1) (2)  (3) (4) should be taken during the master program study.

     Students who graduate earlier than regular two years may waive Seminar

     (3) (4) courses, but still need to obtain 36 credit hours to fulfill graduation 

      requirement.

 5. All graduate students must pass/meet the English proficiency

    test/requirement as outlined in "English Proficiency Assessment for

    Foreign Students, College of Engineering, Chang Gung University".

6. International students may take elective courses in English provided by

    other departments/graduate institutes of CGU toward graduation

    requirement, within the caps of 12 credit hours for M.S. students and 9

    credit hours for Ph.D. students. These courses are subject to be reviewed

    by advisor and graduate student affairs committee. This regulation applies

    to the international students admitted through the international student

    admission process.

1

Chemical industry

Essential Subjects

Course Title
credit semester
Advanced Reaction Engineering 3

First

Advanced Transport Phenomena 3

First

Advanced Process Engineering

3

Second
Advanced Thermodynamics

3

Second

Optional Subjects

Course Title credit semester
Air Pollution Control Theory and Design

3

First
Instrumentation and Control System Design

3

First
Particulate Engineering

3

First
Enzymes and Cell Immobilization

3

First
Applied Industrial Microbiology

3

First
Special Lecture in Practice of Chemical Industry 

3

First
Theory and Design of Wastewater Treatment

3

Second
Bioreactor

3

Second
Advanced Process Control

3

Second
Design of Experiments 

3

Second
Battery and Energy Conversion

3

Second
Chemical Process Simulation Practices

3

Second
Industrial Instrumentation and Control

3

Second
Supercritical Fluids and its Applications

3

Second
Applied Industrial Microbiology

3

Second

Others Subjects

Course Title credit semester
Instrumental Analysis Special Topics

3

First
Introduction to Energy Technology

3

First
Special Topics in Advanced Electrochemistry

3

First
Biochemical Engineering

3

First
R&D and patents pratice

3

Second
Animal and Insect Cell Culture

3

Second

1

Materials

Essential Subjects

Course Title credit semester
Advanced Organic Materials

3

First
Advanced Inorganic Materials

3

Second

Optional Subjects

Course Title credit semester
Ceramic Materials

3

First
Polymer Structure and Physical Properties

3

First
Membrane Technology

3

First
Opto-Polymers & Their Application

3

First
Biomaterial

3

First
Physical Metallurgy Principles

3

First
Solid State Chemistry

3

Second
Polymer Blends

3

Second
Thin Film Processing

3

Second
Functional Polymers

3

Second
The Photoelectrochemical Technology

3

Second
Nanobiotechnology

3

Second
Surface Analysis Technology

3

First

Clinical Applications of Biomedical Engineering and Materials

3 First

Applications of Nanobiotechnonlgy in Medicine

2 First