1.Power Engineering and Engineering Thermophysics (Doctor of Engineering)
Objective: Thisdiscipline aims to cultivate students who have scientific spirit, rigorous learning attitudes, positive learning habits, and inter-disciplinary visions. We aim to develop future high-level professionals with academic innovation who can carry out innovative scientific research, high-tech development and talent cultivation in the field of energy power. We provide students with a strong knowledge foundation, overall competency, strong ability to explore and innovate, and global visions. We support students with a strong theoretical foundation and systematic and in-depth expertise in Power Engineering and Engineering Thermophysics. Students are supposed to be independently engaged in scientific research and achieve innovative results in science or expertise.
Curriculum:
Core courses: Mathematical Models, Advanced Topics of Engineering Thermophysics Fundamentals.
Featured courses: Advanced Topics of Modern Thermal Engineering and Refrigeration, Advanced Topics of Power Machinery and Engineering, Multiphase Fluid Dynamics, Modern Theory and Technology of Renewable Energy Utilization, and Phase Transition Dynamics.
Career:Students following this track are ideally placed to work in industriesandscientific research or educational institutions including but not limited to: scientific research, colleges and universities, engineering design institutes, government administrative and management departments, power production, energy conservation and environmental protection production, aerospace, and energy and new energy utilization. Students of this pathway have a wide range of career choices as described for education, scientific research, equipment and system R&D, design and management.
Power Engineering and Engineering Thermophysics (Master of Engineering)
Objective:This discipline aims to cultivatestudents who advocate the basic line, principles and policies of the Party, bear love for the motherland, and observe the laws and regulations with good professional ethics and scientific, rigorous, truth-seeking and pragmatic work style, anddisplay good ethics, intellect and physique. We provide students with a strong theoretical foundation and systematic expertise of Power Engineering and Engineering Thermophysics, good command of foreign languages and a certain ability to innovate. We aim to develop future well-educated innovative professionals who may be engaged in scientific research or technical worksrelatedto this field.
Curriculum:
Core courses:Including Advanced Engineering Thermodynamics, Advanced Fluid Mechanics, Advanced Heat Transfer, Principles of Advanced Automobile Power System (bilingual), Computational Heat Transfer, Automotive System Dynamics, New Technology in Refrigeration and Air Conditioning Equipment, Modeling and Simulation of Refrigeration and Air Conditioning Systems, Multiphase Fluid Dynamics, Phase Transition Dynamics.
Featured courses: Fuel Cell Technology, Technological Frontier of Solar Energy Utilization, Phase Transition Heat Transfer, Two-Phase Flow and Heat Transfer, Modern Test Technology, Sustainable Building Energy Conservation Technology, Advanced Combustion Technology, Automotive New Energy Technology, Enhanced Heat Transfer, Porous Medium Flow and Heat Transfer, Micro and Nano Scale Heat Transfer, Alternative Refrigerant Technology, Numerical Calculation and Analysis of Combustion Process, CFD Software Application, New Technology of Heat Pump, Compressor Optimization Design Methods, Modern Control Technology of Refrigeration and Air Conditioning, Energy Functional Materials, Electronic Control Technology of New Energy Vehicle Power System, Theory and Application of Internal Combustion Engine Flow and Combustion, New Technology of Automotive Power System, Automotive Emission Measurement and Control Technology, Principles and Technology of Energy-Saving Thermodynamics, English Scientific Paper Writing.
Career:Students following this track are ideally placed to work in the power sector, power equipment manufacturing companies, automotive R & D companies, aerospace sectors, colleges, and universities as well as the companies and the management departments of the government related to energy and environmental protection.
2.Environmental Science and Engineering (Doctor of Engineering)
Objective: This program aims to cultivate high-level academic professionals qualified for fundamental research, applied basic research and high-tech R & D in the field of environmental science and engineering.. We provide students with a strong theoretical foundation and both systematic as well as in-depth expertise in Environmental Science and Engineering. We also support students to develop the ability to be independently engaged in scientific research activities. We aim to develop students with spirit and capability of innovations for creative exploring in science or expertise.
Curriculum:
Core courses:Mathematical Models, Environmental Biotechnology, Advanced Environmental Chemistry, Regional Pollution Prevention and Evaluation.
Featured courses: Chemistry of Environmental Analysis, Environmental Planning, Theory and Application of Biological Wastewater Treatment, Solid Waste Management, Air Pollution Control Theory and Technology.
Career:Graduates following this pathway are qualified to work in organizations such as research institutions, colleges, urban and rural development and planning departments, environmental protection departments of the government, and environmental consulting companies. Graduates will have all the career choices as described for research, planning, management, designing, educating and other related fields.
Environmental Science and Engineering (Master of Engineering)
Objective: This program aims to cultivate high-level applied professionals in the field of environmental science and engineering. Graduates who acquire this degree are supposed to have a strong knowledge background and systematic expertise in Environmental Science and Engineering. We aim to develop students who will be pursing career opportunities on scientific research or independent technical service related to environmental protection using strong practical skills and innovative thinking.
Curriculum:
Core courses:Environmental Biotechnology, Advanced Analytical Chemistry, Industrial Wastewater Treatment, Air Pollution Control Theory and Technology, New Technology for Wastewater Treatment, Aerosol Mechanics, Particle Control Technology, Solid Waste Management (Bilingual), Environmental Monitoring and Analysis, Regional Pollution Prevention and Evaluation, Environmental Planning for Regional Combined Pollution, Environmental Catalysis, Environmental Pollution Chemistry (Bilingual), Environmental Management Policies and Regulations, Pollution Meteorology and Urban Climate, Principles and Analytical Techniques of Water Treatment Experiment.
Featured courses: Mathematical Methods of Environmental Engineering, Kinetic Basis of Activated Sludge Process, Advanced Water Treatment Theory and Application, Physicochemical Treatment of Wastewater, Theory and Technology of Anaerobic Wastewater Treatment, Membrane Separation Technology Application, Modern Instrument Analysis Methods, Air Pollution Chemistry, Environmental Ecology, Pollutants Enrichment and Separation, Methods and Applications of Environmental Electrochemistry, Circular Economy and Sustainable Development, Fundamentals of Environmental Toxicology, Air Particles Chemistry and Regional Combined Pollution, Sewage Treatment Plant Design and Operation Control, Scientific Documents Retrieval and Utilization, Principles and Experimental Techniques of Air Pollution Control Technology.
Career: Graduates are ideally developed to work in organizations such as research institutions, colleges, urban and rural development and planning departments, environmental protection departments of the government, and environmental consulting companies, and have all the career choices as described for research, planning, management, design, teaching, development, and other relevant careers.
3.Chemical Engineering and Technology(Doctor of Engineering)
Objective: This discipline aims to cultivatestudents who advocate the basic line, principles and policies of the Party, bear love for the motherland, and observe the laws and regulations with good professional ethics, rigorous attitudes and practical minds for science, positive moral characters, strong knowledge foundation, overall competency, and physical and mental health. We provide students with the strong theoretical foundation of chemical engineering and technology, and the systematic and in-depth expertise of chemical engineering and process, catalyst engineering and technology, chemical membrane separation and technology, functional material synthesis and application technology, microfluidic and biological analysis technology, self-assembly chemistry and application technology, and energy materials and electrochemical application technology.We aim to develop future excellent innovative professionals who can be independently engaged in basic research, applied basic research, high-tech and other scientific research and technical work related to Chemical Engineering and Technology, and support them with global visions and skills of conducting international academic exchanges so as to achieve innovative results in science or expertise.
Curriculum:
Core courses:Mathematical Models, Modern Instrument Analysis, Catalyst Engineering, Modern Chemical Engineering Progress, Microfluidic Systems, Biological Analysis Technology, Advanced Separation Engineering, Materials Chemistry and Engineering, Chemical Engineering Self-Assembly, Molecular Chemical Engineering, and New Energy and Electrochemical Engineering.
Featured courses: Chemical Engineering Process Simulation and Optimization, Membrane Science and Technology, Catalyst Preparation Methods, Chemical Engineering System Engineering, Nanometer Materials and Technology, Green Chemistry Process and Design, Advanced Chemical Thermodynamics, Advanced Chemical Reaction Engineering, Advanced Chemical Engineering Transfer Process, Advanced Chemical Engineering Technology, Advanced Chemical Reaction Kinetics, Catalytic Reaction Engineering, Advanced Organic Chemistry, Document Retrieval of Chemistry and Chemical Engineering, Advanced Inorganic Chemistry, Academic English Writing (bilingual), Safety Engineering.
Career: After graduation, the students majored in Chemical Engineering and Technology are ideally placed to work in research institutes, firms, and foreign or state-owned enterprises and institutions related to fine chemicals, daily chemicals, organic synthesis, biochemistry, biochemical engineering, pharmaceutical synthesis, medicine, materials, energy, light industry, textiles, and environmental protection in Beijing municipality or other places, and have all the career choices as described for scientific research, technology development, and engineering design and management.
Chemical Engineering and Technology (Master of Engineering)
Objective: This discipline aims to cultivatestudents who advocate the basic line, principles and policies of the Party, bear love for the motherland, and observe the laws and regulations with good professional ethics, rigorous attitudes and practical minds for science, positive moral characters, strong knowledge foundation, overall competency, and physical and mental health. We provide students with the strong theoretical foundation of chemical engineering and technology, and the systematic and in-depth expertise of chemical engineering and process, catalyst engineering and technology, chemical membrane separation and technology, functional material synthesis and application technology.We aim to develop future well-educated innovative professionals who may be independently engaged in basic research, applied basic research, high technology, and other scientific researchinchemicalengineering and technology or technical work related to this field to achieve innovative results, capable of using the foreign languages to conduct research and academic exchanges.
Curriculum:
Core courses:Modern Instrument Analysis, Catalyst Engineering, Modern Chemical Engineering Progress, Microfluidic System, Bioanalysis Technology, Advanced Separation Engineering, Materials Chemistry and Engineering, Chemical Engineering Self-Assembly, Molecular Chemical Engineering, New Energy and Electrochemical Engineering.
Featured courses: Chemical Process Simulation and Optimization, Membrane Science and Technology, Catalyst Preparation Methods, Chemical Engineering System Engineering, Nanometer Materials and Technology, Green Chemistry Process and Design, Advanced Chemical Thermodynamics, Advanced Chemical Reaction Engineering, Advanced Chemical Engineering Transfer Process, Advanced Chemical Engineering Process, Advanced Chemical Reaction Kinetics, Catalytic Reaction Engineering,Chemical Reaction Kinetics,Functional Fine Chemicals and Application, Natural Product Chemistry and Application, Chemical Engineering Transfer Process, Membrane Technology Application, Preparation Methods of Nano Functional Materials, Advanced Organic Chemistry, Document Retrieval of Chemistry and Chemical Engineering, Supramolecular Chemistry, Functional Polymer Materials and Processing, Biochemical Reaction Engineering, Advanced Inorganic Chemistry, Academic English Writing (Bilingual), Frontiers of Chemical Engineering and Technology, Solid Chemistry, Safety Engineering, Physical Chemistry Research Methods.
Career: After graduation, the students majored in Chemical Engineering and Technology are ideally placed to work in research institutes, firms, and foreign or state-owned enterprises and institutions related to fine chemicals, daily chemicals, organic synthesis, biochemistry, biochemical engineering, pharmaceutical synthesis, medicine, materials, energy, light industry, textiles, and environmental protection in Beijing municipality or other places, and have all the career choices as described for scientific research, technology development, and engineering design and management.
4.Biomedical Engineering (Doctor of Engineering)
Objective:This program is established to cultivate high-level academic innovative talents who will conduct scientific research, high-tech development and personnel training in the field of Biomedical Engineering in the future. The talents will be equipped with excellent moral character, solid academic foundation, comprehensive quality, good physical and mental health and international vision, master solid and broad basic theories and systematic and in-depth specialized knowledge in Biomedical Engineering, have the ability to independently engage in scientific research, and achieve innovative results in science or specialized technology.
Curriculum:
Core courses: Frontier of Biomedical Engineering, Frontier of Life Science, Frontier of Chemical Biology
Featured courses: Modern Medical Signal Processing, Biomechanics, Biotechnology Synthesis, Pharmaceutical Chemistry, Molecular Biophysics, Molecular Immunology, Molecular Pharmacology, Molecular Design Methods and Applications, New Drug Synthesis and Technology, Environmental and Viral oncology, and Engineering Physiology.
Career:At present, the training directions of doctoral students in Biomedical Engineering include: Biomechanics and Cardiovascular Medical Engineering, Biomedical Electronics and Bioinformatics, Biotechnology and Tumor Prevention, Chemical Biology and Pharmaceutical Chemistry. Graduates anticipate engaging in scientific research, technological development, personnel training and management work of life science and biomedical engineering in institutions of high-level education, research institutes and high-tech enterprises.
Biomedical Engineering (Master of Engineering)
Training objectives: Tomaster solid basic theories, broad specialized knowledge and necessary management knowledge in the biomedical engineering field; to have advanced methods and modern technological means to solve engineering problems in the biomedical engineering field; to have the ability to independently engage in scientific research, project development, engineering design and engineering management; solve practical engineering problems in the biomedical engineering field and practical engineering problems in related technologies.
Curriculum:
Core courses: Engineering Physiology, Medical Physics, Modern Medical Signal Processing, Biomedical Imaging, Medical Image Processing, Biomechanics, Principles and Applications of Molecular Simulation in Molecular Biology, Molecular Oncology, Pharmaceutical Chemistry, Immunology.
Featured courses: Medical Pattern Recognition and Artificial Intelligence, Intelligent Medical Instrument Design, Biomedical Engineering Numerical Simulation, Biomedical Statistics, Protein Structure and Function, Biochemical Analysis and Biosensors, Drug Synthesis and New Technologies, Biotechnology Synthesis.
Career:Graduates will engage in scientific research, education and management work in scientific research institutes, enterprises and public institutions, institutions of higher education and hospitals.
5.Energy andPower (Master of Engineering)
Objective: This discipline aims to cultivatefuture high-level applied and inter-disciplinary professionals who have a strong knowledge foundation, overall competency, strong practice ability and certain ability to innovate. Postgraduates of professional degrees should advocate the basic line, principles and policies of the Party, bear love for the motherland, and observe the laws and regulations with good professional ethics and manners, scientific, rigorous, truth-seeking and pragmatic learning attitudes and work style. We provide students with a strong knowledge foundation and systematic expertise in the field of energy and power engineering, the ability to be engaged in technical or management works, and the knowledge of the technology and development in energy and power engineering. We aim to develop students who can independently apply the advanced methods and modern technical methods of energy and power engineering to solve problems.
Curriculum:
Core courses:Advanced Engineering Thermodynamics, Advanced Fluid Mechanics, Advanced Engineering Heat Transfer.
Featured courses: Computational Heat Transfer, CFD Software Application, Enhanced Heat Transfer, Modern Test Technology, Two-Phase Flow and Heat Transfer, Technological Frontier of Solar Energy Utilization, Energy Functional Materials, Micro and Nano Scale Heat Transfer, Fuel Cell Technology, Phase Transition Heat Transfer, Porous Medium Flow and Heat Transfer, Principles and Technology of Energy-Saving Thermodynamics, Alternative Refrigerant Technology, New Technology of Heat Pump, New Technology in Refrigeration and Air Conditioning Equipment, Modeling and Simulation of Refrigeration and Air Conditioning Systems, Compressor Optimization Design Methods, Modern Control Technology of Refrigeration and Air Conditioning, Principles of Advanced Automobile Power System, Automotive System Dynamics, Electronic Control Technology of New Energy Vehicle Power System, Automotive New Energy Technology, New Technology of Automotive Power System, Automotive Emission Measurement and Control Technology.
Career: After graduation, students following this track have all the career choices as described forresearch, development, design, manufacturing, technical support, and operation management of new energy utilization technology and equipment in units such as research design institutes, enterprises, and institutions. Apartfrom the new energy utilization field, students have a wide range of career choices as described for technical work and management work in related fields including refrigeration and air conditioning, thermal engineering, power engineering and energy. Studentsofautomobile direction are ideally placed to work in domestic and foreign automobile production enterprises, automobile research institutes and other units, and maybe engaged in automobile product design and development, new automobile technology development and research, automobile product technical support and after-sales service, import and export trade of vehicles and components and automobile marketing, andautomobile transportation management, testing and supervision. Also, students may be engaged in product development, trade and service in the electromechanical industry.
6.Materials andChemical Engineering (Master of Engineering)
Objective: This discipline aims to cultivatefuture high-level applied professionals in the field of materials and chemical engineering. Students who acquire this degree are supposed to have a strong theoretical foundation, broad expertise, and necessary management knowledge in materials and chemical engineering. We aim to develop students who may be engaged in scientific research or independently undertake technical work related to materials and chemical engineering and have strong practice ability and a certain ability to innovate.
Curriculum:
Core courses:Chemical Engineering Transfer, Modern Chemical Engineering, Engineering of Chemical Engineering System, Chemical Engineering Design, Industrial Catalysis Engineering, Membrane Science and Technology, Numerical Analysis, Stochastic Process, Advanced Chemical Reaction Engineering, Advanced Chemical Engineering Thermodynamics.
Featured courses: Industrial Organic Chemical Engineering, Safety Engineering, Electrochemical Engineering Fundamentals, Chemical Engineering Process Optimization, Chemical Engineering Technology Economics, Green Chemical Engineering Technology, New Energy Chemical Engineering, Membrane Separation Technology Application, Scientific Documents Retrieval, Career Development and Employment Guidance for Postgraduates, Business Foundation, Production Operations and Management, Intellectual Property Rights and Regulations, Physicochemical Treatment of Wastewater, Modern Instrument Analysis Methodology, Application of Computers in Chemistry and Chemical Engineering, Half-Year In-School Practice, Half-Year Practice in Enterprises or Bases of Production, Teaching and Research.
Career: After graduation, the students majored in Materials and Chemical Engnieering are ideally placed to work in research institutes, firms, and foreign or state-owned enterprises and institutions related to fine chemicals, daily chemicals, organic synthesis, biochemistry, biochemical engineering, pharmaceutical synthesis, medicine, materials, energy, light industry, textiles, and environmental protection in Beijing municipality or other places, and have all the career choices as described for scientific research, technology development, and engineering design and management.
7.Resources and Environment (Master of Engineering)
Objective: This program aims to cultivatehigh-level professionals for applied and inter-disciplinary applications in engineering technology with a strong knowledge foundation, overall competency, physical and mental health, strong engineering practice ability and innovation. Graduates who acquire this degree are supposed to have a good technical knowledge foundation of Environmental Science and Engineering. We aim to train students who will be independently engaged in technical works related to this field.
Curriculum:
Core courses:Environmental Biotechnology, Advanced Analytical Chemistry, Industrial Wastewater Treatment, Air Pollution Control Theory and Technology, Environmental Monitoring and Analysis, Kinetic Basis of Activated Sludge Process, Membrane Separation Technology Application.
Featured courses: New Technology for Wastewater Treatment, Aerosol Mechanics, Solid Waste Management (bilingual), Environmental Planning, Environmental Catalysis, Environmental Pollution Chemistry (bilingual), Environmental Management Policies and Regulations, Pollution Meteorology and Urban Climate, Principles and Analytical Techniques of Water Treatment Experiment, Mathematical Methods of Environmental Engineering, Advanced Water Treatment Theory and Application, Physicochemical Treatment of Wastewater, Theory and Technology of Anaerobic Wastewater Treatment, Modern Instrument Analysis Methods, Air Pollution Chemistry, Pollutants Enrichment and Separation, Methods and Applications of Environmental Electrochemistry, Circular Economy and Sustainable Development, Fundamentals of Environmental Toxicology, Atmospheric Particles Chemistry and Regional Combined Pollution, Sewage Treatment Plant Design and Operation Control, Scientific and Technic Literature Introduction and Research Tools Utilization, Principles and Experimental Techniques of Air Pollution Control Technology.
Career: Graduates following this pathway are qualified to work in organizations such as designing institutes, municipal departments, environmental companies, environmental management departments, scientific research institutions, and colleges and universities. Graduates will also have various career choices as described for design, construction, management, planning, education, and R&D.
8.Chemistry (Master of Science)
Objective: This program aims to cultivatefuture well-educated innovative professionals in chemistry and related areas such as environment, energy, materialsscienceand biology. We aim to develop students who love the motherland, obey the laws and regulations with professional ethics and scientific, rigorous, truth-seeking, and pragmatic work style. We provide students with a strong knowledge and experiment skills about chemistry, expertise, experiment skills, theories and research methods in the directions of chemistry, knowledge of development frontiers and the latest news in the directions. Students will possess the ability to read chemistry literatures in English, write good scientific papers, and conduct international academic research and exchanges.Thestudents will gain the capability of independent carrying out scientific research or undertaking specialized technical work andwith innovative ability.
Curriculum:
Core courses:Core courses are composed of Advanced Analytical Chemistry, Advanced Inorganic Chemistry, Advanced Physical Chemistry, Advanced Organic Chemistry, Preparation Methods of Nanomaterials, Chemistry of Environmental Analysis, Biological Nano Chemistry, Modern Organic Spectroscopy, etc.
Featured courses: Featured courses are Modern Chromatographic Analysis, Image Analysis Methods, Biological Probes and Analysis, Chemical Biology, Self-Assembly Chemistry, Organometallic Chemistry, Solid Chemistry, Electrochemical Measurement, Physical Chemistry Research Methods (bilingual), Solid Structure Analysis, Preparation Methods of Nano Functional Materials
Career:After their graduation, the students majored in Chemistry are ideally placed to work in research institutes, enterprises, and institutions in Beijing the capital and environs and are engaged in research, testing, and other work.
9.Biology(Master of Science)
Objectives:This program is established to cultivate high-quality innovative talents,wholove the motherland andmaybe ruled by law with good professional ethics and rigorous and pragmatic style of working.Students should be able to master the solid basic theory and systematic expertise and research techniques of this discipline,andget abilities to read English scientific articles, to intimately understand the current progress and future development in biological fields and possess English writing and communication abilities for scientific lecture and international academic exchange, respectively, and the abilities for independent research working and particular technical projects.
Curriculum:English for Master's Degree, Introduction to Dialectics of Nature, Theoretical and Practical Research on Socialism with Chinese Characteristics, Advanced Numerical Analysis, Data Analysis Methods and R Software, Stochastic Processes, Frontier of Chemical Biology, Frontier of Life Sciences, Molecular Biophysics, Principles and Applications of Molecular Simulation, Molecular Structure and Process Simulation, Drug Synthesis and New Technologies, Life Science Experimental Technology, Medical Foundation, Biomedical Synthesis, Molecular Pharmacology, Biochemical Analysis and Biosensors, and Modern Instrumental Analysis.
Career:Graduates can conduct scientific research, teaching and management work in the fields of Cell Biology and Biomedicine, Tumor Biology and Molecular Medicine, Bioinformatics, Pharmaceutical Chemistry and Chemical Biology, Environmental Biology and Food Safety.