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Curriculum Plan

  
Course Characteristics
 
 
Course Plan Scheme
 
Undergraduate program
 
General knowledge courses
Core courses
Chinese, English, English Practice, Historical Thoughts and Social Trend, Contemporary Political Thoughts and Trends, Environment and Sustainable Development, Art Appreciation: Fine Art, Information Literacy and Application, Physical Education
 
Optional course
Three major field: Culture and Art Field; Social Science Field; Nature Science Field
 
Prescribed courses
 
Engineering Basic Courses
General Chemistry, Chemistry Laboratory, General Physics, Calculus, Computer Programming
Professional Basic Courses
Introduction to Chemical Engineering and Materials Engineering, Analytical Chemistry, Analytical Chemistry Laboratory, Organic Chemistry, Organic Chemistry Laboratory, Physical Chemistry, Physical Chemistry Laboratory, Mass and Energy Balances
Professional Core Courses
 
Instrumental Analysis, Instrumental Analysis Laboratory, Materials Science, Materials Mechanics, Materials Laboratory, Thermodynamics, Transport Phenomena and Unit Operations, Unit Operations Laboratory, Industrial Safety and Environmental Protection, Chemical Reaction Engineering, Chemical Process Design
 
Optional Courses
 
Process operation and design
Industrial Chemistry, Introduction to Environmental Science and Engineering, Pollution Control, Process Control, Design of Chemical Engineering Devices, Introduction to Biochemical Engineering, Chemical Engineering Mathematics, Quality Control, Numerical Analysis, Colloid Science, Industrial Instruments, Engineering Ethics, Engineering Statistics, Industrial Catalysts, Safety of Chemical Process, Chemical Industrial Process, Computer Programming in Chemical Engineering, Statistics in Chemical Engineering, Green Chemical Engineering, Patent Practice, Undergraduate Projects , Industrial Lectures, Technical Writing, Selected Studies in Sciences and Technology
Materials design and development
Industrial Chemistry, Introduction to Polymer, Chemical Principles, Polymer Chemistry, Polymer Materials, Functional Polymers, Semiconductor Materials, Introduction to Solid State Physics, Modern Physics, Organic Synthesis, Introduction of Quantum Chemistry, Introduction to Surfactant, Polymer Processing and Physical Properties, Industrial Analysis, Introduction to Biomedical Materials, Optoelectronic Materials, Organic Spectroscopy, Quality Control, Numerical Analysis, Colloid Science, Composite Materials, Industrial Catalysts, Introduction to Biomedical engineering, Introduction to Nano-materials, Liquid Crystalline Materials, Statistics in Chemical Engineering, Ceramic Materials, Electronic Surface Mounting Technology, Electrochemical and Surface Analysis, Physical Metallurgy, Engineering Ethics, Engineering Statistics, Green Chemical Engineering, Patent Practice, Industrial Lectures, Undergraduate Projects , Selected Studies in Sciences and Technology, Technical Writing
Energy development and application
Industrial Chemistry, Introduction to Polymer, Chemical Principles, Polymer Chemistry, Polymer Materials, Semiconductor Materials, Introduction to Solid State Physics Modern Physics, Organic Synthesis, Introduction of Quantum Chemistry, Polymer Processing and Physical Properties, Electrochemistry, Optoelectronic Materials, Organic Spectroscopy, Quality Control, Numerical Analysis, Electronic Surface Mounting Technology, Electrochemical and Surface Analysis, Introduction to Nano-materials Engineering Ethics, Engineering Statistics, Introduction of Renewable Energy, Green Chemical Engineering, Patent Practice, Undergraduate Projects, Industrial Lectures, Selected Studies in Sciences and Technology, Technical Writing
Environmental protection and disaster prevention
Industrial Chemistry, Introduction to Environmental Science and Engineering, Chemical Principles, Biology, Functional Polymers, Biochemistry, Introduction to Biochemical Engineering, Introduction to Biotechnology, Pollution Control, Introduction to Surfactant, Electrochemistry, Industrial Analysis, Quality Control, Numerical Analysis, Colloid Science, Introduction to Environmentally Microbial Technology, Industrial Instruments, Industrial Catalysts, Safety of Chemical Process, Chemical Industrial Process, Statistics in Chemical Engineering, Engineering Ethics, Green Chemical Engineering, Patent Practice, Undergraduate Projects , Industrial Lectures, Selected Studies in Sciences and Technology, Technical Writing Chinese
 
Requirement for graduation
 
One of the following items must be achieved before graduation for undergraduate students
1. Pass 2 credits for undergraduate projects
2. Participate one extracurricular practice
3. Publish one paper
4. Participate professional lectures for 50 hours
 
Graduate program
 
Prescribed courses
 
Thesis
 
Optional Courses
 
 
Seminar
*Core courses of chemical engineering field
Advanced Transport Phenomena, Advanced Thermodynamics, Advanced Chemical Engineering Kinetics
*Core courses of material field
Polymer Engineering Properties , Special Topics on Polymer Physics, Advanced Polymer Chemistry, Special Topics on Ceramic Materials, Electron Microscopy, X-Ray Diffraction
Process operation and design
Advanced Transport Phenomena, Advanced Thermodynamics, Advanced Chemical Engineering Kinetics, Advanced Engineering Mathematics, Industrial Safety and Hazard Prevention, Reactor Design, Special Topics on Biochemical Engineering, Technical Writing, Computer Aided Process Design, Advanced Applied Mathematics in Chemical Engineering, Advanced Process Control, Advanced Numerical Analysis, Electron Microscopy, X-Ray Diffraction, Special Topics on Membrane,
Materials design and developing
Advanced Transport Phenomena, Advanced Thermodynamics, Advanced Engineering Mathematics, Special Topics on PU Chemistry, Reactor Design, Special Topic on Semiconductor Productions, Special Topics on Biomedical Engineering, Special Topics on Optoelectronic Materials, Special Topics on Renewable Energy, Special Topics on Organic Materials, Special Topics on Nanobiomaterials, Technical Writing, Polymer Engineering Properties, Polymer Processing and Rheology, Special Topics on Polymer Physics, Polymer Composites, Advanced Polymer Chemistry, Advanced Instrumental Analysis, Advanced Numerical Analysis, Special Topics on Ceramic Materials, Special Topics on Electronic Materials, Special Topics on Electrochemical Engineering, Polymerization, Fuel cell, Electron Microscopy, X-Ray Diffraction, Special Topics on Membrane
Energy development and application
Advanced Transport Phenomena, Advanced Thermodynamics, Industrial Safety and Hazard Prevention, Special Topics on Optoelectronic Materials, Special Topics on Renewable Energy, Special Topics on Organic Materials, Technical Writing, Polymer Engineering Properties, Polymer Processing and Rheology, Special Topics on Polymer Physics, Advanced Polymer Chemistry, Advanced Instrumental Analysis, Advanced Numerical Analysis, Special Topics on Electronic Materials, Special Topics on Electrochemical Engineering, Fuel cell, Combustion Chemistry, Special Topics on Environmental Biotechnology, Electron Microscopy, X-Ray Diffraction, Special Topics on Membrane
Environmental protection and disaster prevention
Advanced Transport Phenomena, Advanced Thermodynamics, Advanced Chemical Engineering Kinetics, Industrial Safety and Hazard Prevention, Special Topics on PU Chemistry, Reactor Design, Special Topics on Biochemical Engineering, Special Topics on Nanobiomaterials, Technical Writing, Computer Aided Process Design, Advanced Polymer Chemistry, Advanced Instrumental Analysis, Advanced Numerical Analysis, Special Topics on Ceramic Materials, Fuel cell, Special Topics on Environmental Biotechnology, Electron Microscopy, X-Ray Diffraction, Special Topics on Membrane
* Graduate student must choose at least 2 core courses in each course field.
 
Requirement for graduation
1. Graduate students must publish at least one conference paper or journal paper before graduation.