Faculty: School of Chemistry and Chemical Engineering
Degree: MS
Specialty: Chemical Technology
Minimum Total Credits: 25.0
Minimum Compulsory Course Credits: 15.0
Minimum Optional Course Credits: 10.0
Objectives
This program aims to cultivate high-level specialists who have solid basic theory and systematic professional knowledge and comprehensive experiment skills of chemical technology and related subjects; who are well-informed with the developing trends of the related research fields and have potentials of research abilities in the discipline; who are proficient in one foreign language and able to read references in foreign languages. Students are expected to be capable of undertake jobs of teaching, scientific researches, design and technology management in higher education institutions, research and designing institutes, enterprises and other business establishments.
Years of Study
Three years
Major Research Fields
1. Green Chemical Technology and Technique
2. Theory and Technology of Renewable Resources
3. Fine Chemical Technology and Technique
4. Refining and Purification Technology of Natural Products
5. Hydrogen Energy and Technology
Cultivation Mode
Advisory system is applied in this program. Students should set out a working program in the first two weeks after registration. Students are supposed to participate in the stage assessment according to Master Degree Candidate Medium-Term Screening Method of South China University of Technology and complete the required social practices before the end of the third semester. Regular seminar reports are required.
Dissertation
Students should draw up thesis plans and write Thesis Proposals between the 11th and 20th weeks in the third semester. Before applying for Thesis Defense, students are required to publish officially one academic paper (recruited papers in academic conferences of all levels are accepted). Thesis defense will be arranged according to Rules for the Implementation of Graduation Degrees of South China University of Technology and Regulations of the Applications for Thesis Defense of South China University of Technology on the completion of theses.
Curriculum
Compulsory Courses | Course Code | Course Title | Credit |
S0001001 | Scientific Socialism Theory and Practice | 1 |
S0001002 | Introduction to Dialectics of Nature | 2 |
S0002011 | First Foreign Language (Essential English) | 3 |
S0817103 | Chemical Engineering Progress | 2 |
S0817111 | English for Special Purposes (Chemical Engineering) | 2 |
Group 1 of Compulsory Courses | S0003001 | Theory and Methods of Statistics | 2 |
S0003003 | Methods of Mathematical Physics | 4 |
S0003004 | Numerical Analysis(basis of Science and Engineering Computation) | 2 |
Group 2 of Compulsory Courses | S0817001 | Chemical Reaction Engineering (II) | 2 |
S0817002 | Transmission Phenomena | 2 |
S0817023 | Chemical Engineering Thermodynamics(II)(Estimation of Physical Property) | 2 |
S0817104 | Process Systems Engineering | 2 |
Optional Courses | S0004024 | Chromatographic Separation Techniques | 2 |
S0004028 | Colloid and Interface Chemistry | 3 |
S0004034 | Scientific Writing and Submission Guidance | 1 |
S0703011 | Biological Inorganic Chemistry | 2 |
S0703025 | Special Organic Synthesis Experiments | 2 |
S0703055 | Organometallic chemistry | 2 |
S0703071 | Theoretical Electrochemistry | 2 |
S0805060 | Research Progress of Surfactants Applications | 2 |
S0817005 | Simulation and Optimization System of Heat Exchangers and Heat Transfer | 2 |
S0817014 | Heterogeneous Photocatalytic Reactions and Design Principles of Reactor | 2 |
S0817019 | Environmental Functional Materials and Characterization Techniques | 2 |
S0817025 | Chemical Product Engineering | 2 |
S0817027 | Basis of Membrane Separation Technology | 2 |
S0817030 | Introduction to Modern Air-Conditioning Energy Saving Technology | 2 |
S0817060 | Catalytic Materials(I) | 2 |
S0817062 | Modern Catalytic Technology(I) | 2 |
S0817066 | Modern Characterization Techniques of Polymer | 2 |
S0817071 | Analysis Methods and Experimental Techniques of Modern Chemistry and Chemical Engineering | 3 |
S0817074 | Natural Gas Utilization Technology | 2 |
S0817078 | Molecular Pharmacology | 2 |
S0817079 | Modern Pharmaceutical Preparations | 2 |
S0817080 | Chemical Biology | 2 |
S0817081 | Principle and Application of Computer Molecular Simulation | 2 |
S0817087 | Chemical Computer Applications | 2 |
S0817088 | Resource Utilization and Extraction of Natural Products | 2 |
S0817092 | Catalysts Characterization and Practical research Methods | 2 |
S0817093 | Fluidization Engineering | 2 |
S0817094 | Water-Soluble Polymer | 2 |
S0817095 | Inorganic Membrane Technology | 2 |
S0817096 | Design and Synthesis of Optoelectronic functional molecule | 2 |
S0817100 | Chemical Adsorption Separation Principle | 2 |
S0817101 | Heat Transfer Enhancement and Energy Saving Technology | 2 |
S0817102 | Thermodynamic Analysis of Chemical Process and Energy Synthesis(I) | 2 |
S0817105 | Separation Technologies | 2 |
S0817106 | Energy and Environmental Materials | 2 |
S0817107 | Analysis and Design of Chemical Process | 2 |
S0817108 | Computational Heat Transfer | 2 |
S0817109 | Modern Coating Chemistry | 2 |
S0817110 | Fine Chemical Engineering | 2 |
S0817112 | Principles and Techniques of Natural Gas Hydrate | 2 |
Chemical Engineering
01. Heat Transfer and Energy Conservation Engineering
02. Mass Transfer and Reaction Separation Processes
03. Process Systems Engineering
04. Biochemistry and Chemical Reaction Engineering
05. Fine Chemical Engineering
06. Nano Energy Materials and Technology
07. Refrigeration and Air Conditioning
08. Environmental Materials Engineering
09. Product Engineering
Process Engineering
01. Organic synthesis and separation
02. Renewable resources, theory and technology
03. Chemical technology for environmental protection
04. Fine Chemicals technology
05. Hydrogen energy and technology
06. Green chemical technology
07. Natural products refining and purification
Industrial Catalysis
01. Heterogeneous Catalysis
02.Nanocatalysis and Nanomaterials
03. Catalysis for Energy and Environment
04. Membrane Materials and Membrane Catalysis
05. Photoelectric Catalysis
06. Bionic Catalysis
Faculty: School of Chemistry and Chemical Engineering
Degree: MS
Specialty: Chemical Engineering
Minimum Total Credits: 25.0
Minimum Compulsory Course Credits: 15.0
Minimum Optional Course Credits: 10.0
Objectives
The program aims to cultivate high-level specialists who are equipped with basic theories and experimental skills of Chemical Engineering and related subjects. Students are required to be proficient in applying experimental skills of chemical engineering, computing technology; and doing researches on the transmission, conversion and processing devices of material flow, energy flow and information flow in the course of the study system or unit device.
Years of Study
Three years
Major Research Fields
1. Heat Transfer and Energy Conservation Engineering
2. Mass Transfer and Reaction-Separation Process
3. Process System Engineering
4. Biochemical and Chemical Reaction Engineering
5. Fine Chemical Engineering
6. Materials and Technology of Nano Energy
7. Refrigeration and Air Conditioning
8. Environmental Materials Engineering
9. Product Engineering
10. Resources Chemical Engineering
Cultivation Mode
Advisory system is applied in this program. Students should set out a working program in the first two weeks after registration. Students are supposed to participate in the stage assessment according to Master Degree Candidate Medium-Term Screening Method of South China University of Technology and complete the required social practices before the end of the third semester.
Dissertation
Students should draw up thesis plans and write Thesis Proposals between the 11th and 20th weeks in the third semester. Before applying for Thesis Defense, students are required to publish officially one academic paper (recruited papers in academic conferences of all levels are accepted). Thesis defense will be arranged according to Rules for the Implementation of Graduation Degrees of South China University of Technology and Regulations of the Applications for Thesis Defense of South China University of Technology on the completion of theses.
Curriculum
Compulsory Courses | Course Code | Course Title | Credit |
S0001001 | Scientific Socialism Theory and Practice | 1 |
S0001002 | Introduction to Dialectics of Nature | 2 |
S0002011 | First Foreign Language (Essential English) | 3 |
S0817103 | Chemical Engineering Progress | 2 |
S0817111 | English for Special Purposes (Chemical Engineering) | 2 |
Group 1 of Compulsory Courses | S0003001 | Theory and Methods of Statistics | 2 |
S0003003 | Methods of Mathematical Physics | 4 |
S0003004 | Numerical Analysis(basis of Science and Engineering Computation) | 2 |
Group 2 of Compulsory Courses | S0817001 | Chemical Reaction Engineering (II) | 2 |
S0817002 | Transmission Phenomena | 2 |
S0817023 | Chemical Engineering Thermodynamics(II)(Estimation of Physical Property) | 2 |
S0817104 | Process Systems Engineering | 2 |
Optional Courses | S0004024 | Chromatographic Separation Techniques | 2 |
S0004028 | Colloid and Interface Chemistry | 3 |
S0004034 | Scientific Writing and Submission Guidance | 1 |
S0703011 | Biological Inorganic Chemistry | 2 |
S0703025 | Special Organic Synthesis Experiments | 2 |
S0703055 | Organometallic chemistry | 2 |
S0703071 | Theoretical Electrochemistry | 2 |
S0805060 | Research Progress of Surfactants Applications | 2 |
S0817005 | Simulation and Optimization System of Heat Exchangers and Heat Transfer | 2 |
S0817014 | Heterogeneous Photocatalytic Reactions and Design Principles of Reactor | 2 |
S0817019 | Environmental Functional Materials and Characterization Techniques | 2 |
S0817025 | Chemical Product Engineering | 2 |
S0817027 | Basis of Membrane Separation Technology | 2 |
S0817030 | Introduction to Modern Air-Conditioning Energy Saving Technology | 2 |
S0817060 | Catalytic Materials(I) | 2 |
S0817062 | Modern Catalytic Technology(I) | 2 |
S0817066 | Modern Characterization Techniques of Polymer | 2 |
S0817071 | Analysis Methods and Experimental Techniques of Modern Chemistry and Chemical Engineering | 3 |
S0817074 | Natural Gas Utilization Technology | 2 |
S0817078 | Molecular Pharmacology | 2 |
S0817079 | Modern Pharmaceutical Preparations | 2 |
S0817080 | Chemical Biology | 2 |
S0817081 | Principle and Application of Computer Molecular Simulation | 2 |
S0817087 | Chemical Computer Applications | 2 |
S0817088 | Resource Utilization and Extraction of Natural Products | 2 |
S0817092 | Catalysts Characterization and Practical research Methods | 2 |
S0817093 | Fluidization Engineering | 2 |
S0817094 | Water-Soluble Polymer | 2 |
S0817095 | Inorganic Membrane Technology | 2 |
S0817096 | Design and Synthesis of Optoelectronic Functional Molecule | 2 |
S0817100 | Chemical Adsorption Separation Principle | 2 |
S0817101 | Heat Transfer Enhancement and Energy Saving Technology | 2 |
S0817102 | Thermodynamic Analysis of Chemical Process and Energy Synthesis(I) | 2 |
S0817105 | Modern Separation Technologies | 2 |
S0817106 | Energy and Environmental Materials | 2 |
S0817107 | Analysis and Design of Chemical Process | 2 |
S0817108 | Computational Heat Transfer | 2 |
S0817109 | Modern Coating Chemistry | 2 |
S0817110 | Fine Chemical Engineering | 2 |
S0817112 | Principles and Techniques of Natural Gas Hydrate | 2 |
