Chemical Engineering and Technology
(Discipline Code: 0817)
I. Discipline Overview
Chemical Engineering and Technology is an engineering technology discipline that studies the common laws of material transformation, material composition change, material properties and their changes in the chemical industry and other process industries, as well as the key technologies for the design, operation and optimization of related process and equipment. It takes the basic theories of chemistry, physics, mathematics, chemical engineering thermodynamics, transfer process principles, chemical reaction engineering, separation engineering, process system engineering, etc. as the basic knowledge system, and experimental research, theoretical research and computer simulation as the research methods, and serves various fields of economy and society through engineering applications.
Chemical Engineering and Technology of Nanjing Tech University is among the earliest batch of disciplines established by China, ranked A grade in the fourth round of discipline evaluation, and is a preponderant discipline ranking first in Jiangsu Province.It has the State Key Laboratory of Materials-Oriented Chemical Engineering and the National Engineering Technology Research Center for Special Separation Membrane. It has a well-structured and energetic faculty with academicians, outstanding youth and chief scientists of the National Key Basic Research Program of China (973 Program) as the leaders, middle-aged and young doctoral supervisors as the backbone, and young doctors returning from overseas as the main body. The development of chemical engineering and technology is closely linked and crossed with mathematics, physics, chemistry, material science, environmental science, biology and other disciplines, forming five secondary disciplines like chemical engineering, chemical process, industrial catalysis, biochemistry and applied chemistry.
II. Cultivation Goals
Guided by Xi Jinping's thought of socialism with Chinese characteristics in the new era, the discipline comprehensively implements the Party's education policy, takes establishing moral values and educating people as the fundamental, and the all-round moral, intellectual, physical and aesthetic development as the main line, deeply promotes the construction of course ideology and politics, and cultivates high-level talents with firm political stance, noble ideological character, rigorous academic attitude and innovative spirit.
The cultivation goal of master's degree in chemical engineering and technology is to cultivate highly qualified and high-level talents who can adapt to the requirements of modern chemical industry. Master students are required to: establish a correct world view and outlook on life, love the motherland, abide by the discipline and law, be rigorous in their studies, and have good professional ethics and dedication. Have a solid grasp of the basic theory of chemical engineering discipline consisting of transfer process principles, chemical reaction engineering, chemical engineering thermodynamics, chemical separation processes, and chemical process system processes, as well as systematic and in-depth expertise and modern experimental methods and skills in this discipline. Have the ability to work on chemical process modeling and simulation, intermediate synthesis, chemical cleaning process and technology, industrial pollution control, catalyst and catalytic reaction process development, development of new materials, new technology and new equipment for the chemical industry, and engineering scaling-up design. Be innovative talents who can undertake teaching, scientific research and technical management in institutions of higher learning, research institutes, enterprises and other units.Master a foreign language.
III. Cultivation Direction
1. Chemical engineering: Materials chemical engineering, chemical reaction and separation engineering, nano and interface chemical engineering, resources and energy chemical engineering, and environmental chemical engineering.
2. Chemical processes: Fine chemical synthesis processes, green chemical processes, organic chemical process integration and optimization, molecular design and atomic economy reactions.
3. Industrial catalysis: New energy catalysis, new catalytic materials, green catalytic processes, new catalytic reaction engineering, and nano-catalytic technology.
4. Biochemicals: Screening and modification of industrial microorganisms, bioreaction engineering and bioreactors, biorefining (system integration and optimization), biological separation engineering, and bioenergy engineering.
5. Applied chemistry: Applied spectroscopy and applied electrochemistry, fine organic synthesis, hydrochemistry and industrial water treatment technology, photoelectromagnetic materials and applications, fine polymer synthesis and applications.
IV. Study Period and Credits
The study period for academic master students is generally 3 years, with a maximum of 5 years.
The minimum total credit required for academic master students is 28 credits. Wherein, the total credit for courses is not less than 24 credits (10 credits for public degree courses, 6 credits for professional degree courses, 4 credits for professional elective courses and 4 credits for public elective courses); 4 credits for compulsory links: 2 credits for academic lectures/reports and 2 credits for academic practice. In principle, the study of graduate courses shall be completed within 1 year.
For master students enrolled at the university with equivalent academic attainments or from another discipline, they must make up the main courses (not less than 2) of the undergraduate program of their current discipline, and the make-up courses will only be recorded with grades, not credits, but should be included in their personal cultivation plan.
V. Curriculum Setting
Type
Courses |
Course number |
Course name |
Course name in English |
Credit |
Credit hours |
Semester of course |
Remark |
Degree courses |
Public degree courses |
s001021 |
自然辩证法概论 |
Introduction to Natural Dialectics |
1 |
16 |
1 |
3 credits |
s001037 |
新时代中国特色社会主义理论与实践 |
Theories and Practice of Socialism with Chinese characteristics |
2 |
32 |
1 |
s001008 |
学科科技英语写作/实用英语写作 |
Academic English Writing/Practical English Writing |
2 |
40 |
1、2 |
3 credits |
s001009 |
综合英语 (六级≥425分可免修) |
Comprehensive English |
1 |
20 |
1 |
s001023 |
工程应用数学 |
Engineering Applied Mathematics |
4 |
64 |
1 |
4 credits |
s001024 |
应用统计 |
Application of Statistics |
2 |
32 |
1 |
s001025 |
矩阵论 |
Matrix Theory |
2 |
32 |
1 |
s001026 |
数理方程 |
Mathematical Equations |
2 |
32 |
2 |
s001027 |
最优化方法 |
Optimization Methods |
2 |
32 |
2 |
s001028 |
随机过程 |
Stochastic Process |
2 |
32 |
2 |
s001029 |
数值分析 |
Numerical Analysis |
2 |
32 |
1 |
s001030 |
数学建模 |
Mathematical Modeling |
2 |
32 |
1 |
s001040 |
中国概况(留学生) |
General Introduction of China |
2 |
32 |
2 |
6 credits |
s001041 |
综合汉语(一) (留学生) |
Comprehensive Chinese I |
2 |
32 |
1 |
s001042 |
汉语听力与口语(一)(留学生) |
Chinese Listening and Speaking I |
2 |
32 |
1 |
Professional degree courses |
S042021 |
化工传递过程* |
Chemical Transfer Process |
2 |
32 |
2 |
At least 6 credits |
S042022 |
化工热力学* |
Chemical Engineering Thermodynamics |
2 |
32 |
1 |
S042023 |
高等分离工程* |
Advanced Separation Process in Chemical Engineering |
2 |
32 |
2 |
S042024 |
高等反应工程* |
Advanced Chemical Reaction Engineering |
2 |
32 |
2 |
S042010 |
应用表面化学 |
Applied Surface Chemistry |
2 |
32 |
1 |
S042015 |
工业催化原理 |
Fundamental of Industrial Catalysis |
2 |
32 |
1 |
S042016 |
催化剂表征与测试 |
Introduction to Characterization and Testing of Catalysts |
2 |
32 |
2 |
s052032 |
高等有机化学 |
Advanced Organic Chemistry |
2 |
32 |
1 |
s052040 |
高等物理化学 |
Advanced Physical Chemistry |
2 |
32 |
1 |
s052035 |
高等仪器分析 |
Advanced Instrumental Analysis |
2 |
32 |
2 |
s172034 |
生物分离工程 |
Bioseparation Engineering |
2 |
32 |
1 |
s172042 |
生物反应工程与反应器分析(案例课程) |
Bioreaction Engineering and Reactor Analysis |
2 |
32 |
1 |
s172043 |
生物过程工程 |
Bioprocess engineering |
2 |
32 |
1 |
Non-degree courses
|
Professional Elective Courses |
s043032 |
功能高分子与新技术 |
Functional Polymers and New Technology |
1 |
16 |
2 |
At least 4 credits (Students have a free choice of all the courses in the university according to the requirements of instructors and their research topics) |
s043036 |
计算化学与分子模拟 |
Computational Chemistry and Molecular Modeling |
2 |
32 |
1 |
s043040 |
纳米科学与工程概论 |
Foundations of Nanoscale Science and Engineering |
1 |
16 |
1 |
s043045 |
无机多孔材料研究进展 |
Research Progress on Inorganic Porous Materials |
1 |
16 |
1 |
s043053 |
介孔材料化学 |
Chemistry of Mesoporous Materials |
1 |
16 |
2 |
s043054 |
化工专题课程(全英文课程) |
Topic Courses of Chemical Engineering |
1 |
16 |
2 |
s043069 |
微孔膜传质与气体分离研究 |
Mass Transfer through Microporous Membranes and Gas Separation |
1 |
16 |
1 |
s043070 |
超分子与生物有机化学 |
Supramolecular and Bioorganic Chemistry |
2 |
32 |
1 |
s043071 |
催化研究进展 |
Advances in Catalysis Studies |
2 |
32 |
2 |
s053034 |
药物化学 |
Pharmaceutical Chemistry |
2 |
32 |
2 |
s053040 |
高等分离分析 |
Advanced Separation and Analysis |
2 |
32 |
1 |
s053033 |
水质化学与水处理 |
Hydrochemistry and Water Treatment |
2 |
32 |
2 |
s173045 |
生物炼制与碳中和生物技术 |
Biorefinery and carbon neutral biotechnology |
1 |
16 |
1 |
s173052 |
绿色催化与过程强化(案例课程) |
Green catalysis and process enhancement |
1 |
16 |
1 |
s173053 |
生物基高分子材料 |
Bio-based polymer materials |
1 |
16 |
1 |
Public Elective Courses |
s004001 |
信息检索 |
Information Retrieval |
2 |
40 |
1 |
4 credits |
s004002 |
第二外语 |
Second Foreign Language |
2 |
40 |
2 |
s004003 |
英语口语 |
Oral English |
2 |
40 |
2 |
s004004 |
综合能力提升工程 |
Comprehensive Ability promotionProgram |
2 |
40 |
1 |
s004007 |
知识产权与技术创新 |
Intellectual Property and Technological Innovation |
2 |
40 |
1 |
s004008 |
中国传统文化 |
Traditional Chinese Culture |
2 |
32 |
1、2 |
Compulsory Links |
Academic lectures/reports |
|
2 |
|
|
4 credits |
Academic Practice |
|
2 |
|
|
Remark |
Note: *Professional core courses |
VI. Compulsory Links Management
1. Academic lectures/reports (2 credits)
Academic master students must attend at least fifteen academic seminars on and off campus (at least two lectures on the quality of humanities and aesthetics) during their studies, among which at least five are arranged by the Graduate School and others are arranged by each college, and only those who have attended at least fifteen seminars can obtain two credits for academic lectures/reports.
2. Academic practice (2 credits)
During the study period, academic master students must participate in one of the following academic practice activities: graduate student science and technology forum, graduate student summer school, graduate student academic innovation forum, graduate student research innovation practice competition, high-level international and domestic academic conferences or overseas exchange visits, and labor practice, and participate in activities such as sunshine run on campus and sports meeting, in order to obtain 2 credits for academic practice.
VII. Thesis
1. Basic requirements for thesis
The master's thesis should be completed independently by master students under the supervision of their tutors. Topics related to the cutting-edge field of chemical engineering and technology or of great significance to China's economic and social development should be chosen for the thesis, which should have a certain technical difficulty and workload, and should be advanced and somewhat innovative. The thesis should synthesize basic theories, scientific methods, professional knowledge and technical means to analyze and study the scientific and technical problems involved, and have an independent opinion on a certain aspect. Time spent onthesis research is usually not less than one year.
The content of the thesis should generally include: abstract, significance of the topic and review of previous work; theoretical part; overview of experimental or practical testing methods and instrumentation; analysis and discussion of experimental data; conclusion and references; and appendices. The specific requirements are as follows:
(1) The thesis should contain an overview of the theoretical significance and application value of the topic, the frontier development of the discipline, the problems to be solved and the ways, and the contributions the author has made.
(2) The thesis should describe the experimental methods, experimental apparatus and calculation methods used, and provide theoretical analysis and discussion of collated and processed data.
(3) The thesis should summarize and conclude the results obtained, and propose the methods and suggestions for further research.
(4) The thesis should give all formulas, and description of calculation procedures, and list the necessary raw data and the cited literature.
(5) The citation of others' scientific research results should be clearly indicated, and for the part of cooperation with others, the specific work of collaborators should be stated. Even the citation of others' writings is indicated, it is important not to over-cite textual expressions and diagrams in others' literature.
The thesis should have a novel topic, clear concepts and sufficient arguments; the research methods chosen should have a scientific basis, correct theoretical derivation, error-free calculation results, authentic and reliable experimental data, and rigorous analysis; the conclusions should be theoretically elaborated, and the materials cited from others should be cited from their originals. The thesis should have innovative results, concise and smooth expression, clear organization, clearly defined hierarchy, high logicality, and standardized diagrams. The thesis should reflect the solid theoretical foundation, strong independent working ability and excellent academic style of master students.
2. Thesis proposal
Under the guidance of the supervisor, academic master students should determine the research direction, identify the research topic through literature review, data collection, investigation and research while studying courses, then write literature review for the topic selected, and write the proposal at the end of the third semester or the beginning of the fourth semester.
Requirements on the topic selection and proposal of the thesis for master students are detailed in the Requirements for the Thesis Proposal of Graduate Students of Nanjing Tech University.
3. Thesis review and defense
Academic master students can apply for defense after completing all the links and credits stipulated in the cultivation plan. Specific requirements for thesis review and defense are detailed in the Detailed Rules for the Master's Thesis Defense and Review and Degree Application of Nanjing Tech University.
4. Academic achievement requirements
The requirements for academic master students' academic achievements are detailed in the Measures for Assessment of Scientific Research Achievements of Master's Degree Applicants of Nanjing Tech University.
VIII. Criteria for Graduation and Degree Awarding
The criteria for graduation and degree awarding shall conform with the relevant regulations of the university.
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