Energy Engineering and Automation
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Programme Code: 080505S            Duration4 years
Educational Objectives:
The programme aims to cultivate the high-quality and wide-scope energy engineering talents who have the capability to adapt to the social, economic and scientific developments in the new century.
Objective 1: [Foundations] to master solid knowledge, basic principle and methods on energy conversion and utilization, to master the state-of-art technologies on process design, equipment fabrication, process analysis and unit operation modeling.
Objective 2: [Professional Knowledge] to be capable of creatively solving practical problems encountered in energy industries by the principles of energy science and engineering.
Objective 3: [Teamwork/Leadership] to have skills on communication, cooperation, teamwork and leadership.
Objective 4: [Engineered Systems]to realize that energy is the fundamental of national and social developments. Energy conservation and emission reduction is the basis of sustainable development. Meet the low carbon goals in energy practices and daily life.
Objective 5: [Societal Impact] to be able to determine the potential impacts of various energy conversion and utilization processes in relation to daily-life, industrial and commercial structures and human health. 
Objective 6: [Global Awareness] to keep a clear awareness in a global environment, to be competitive and responsible for his or her own duties.
Objective 7: [Lifelong Learning] Students graduated from this discipline will be capable to work on energy related jobs, such as research, development, teaching, engineering design, management and sales. Students will own a lifelong learning capability.
Specialty Features:
Students in the Energy Engineering and Automation discipline will study the fundamental scientific knowledge and theory on planning, feasibility study and engineering design of the energy conversion and utilization processes. Through the modern energy engineering training, students will be experts in energy distribution, conversion and utilization, with characteristics of “wide-range knowledge, solid background, open-mindedness and creativity”. 
Educational Requirement:
The objective system of each course is composed of a corresponding set of cultivation purposes, which are the appropriate knowledge, ability and quality that students are supposed to gain.
Knowledge Structure
A1 Fundamental knowledge of literature, history, philosophy and art;
A2 Fundamental knowledge of social science research methods;
A3 Fundamental and frontier knowledge of natural science and engineering;
A4 Fundamental knowledge of mathematics and logic;
A5 Core knowledge of energy engineering and automation
A6 Knowledge of energy engineering and automation;
A7 Management knowledge;
A8 Cross-cultural, international knowledge.
Ability Requirements
B1The ability of clear thinking and accurate language expression;
B2 The ability of discovering, analyzing and solving problems;
B3 The ability of critical thinking and independent working;
B4 The ability of cooperating and communicating with different various people;
B5 Preliminary aesthetic ability on the literary and artistic work;
B6 At least one foreign language proficiency;
B7 The capacity for lifelong learning
B8 Organizational and management capacity;
B9A sense of innovation and creativity;
B10 Analytical writing skills.
Quality Requirements
C1 Ambitious, strong-willed—with the pursuit of civilization heritage, the truth, the rejuvenate of nation, as well as the benefit of human race;
C2 Diligent, pragmatic, down to earth, hard working, excellence striving;
C3 Physical and mental harmony, open-minded—with good physical and mental quality, as well as the tolerant mentality of multicultural and broad international perspective;
C4 Quick thinking, innovative awareness——diligent in thinking, good at research, with strong interest in innovation, full of curiosity and desire to solve problems;
C5Noble values—with the correct legal awareness, professional ethics and a strong sense of social responsibility, as well as strong initiative, responsible and cooperative awareness.
Degree Conferred: Bachelor of Engineering
Main Courses:
Gas Transmission & Distribution; Gas Combustion & Utilization; Petroleum Refinery; Natural Gas Utilization; Automatic Control Theories and Technologies; Heat Transfer; Engineering Thermodynamics; Fluid Mechanics; Industrial Catalysis;
Featured Course:
Bilingual Courses: Heat Transfer; Mass Transfer and Separation Process; Gas Combustion & Utilization; Energy Material.
Research Courses: Energy state-of-art technology seminar; Seminar on Energy Engineering
Entrepreneurship Education Courses: Introduction to engineering design, industrial model and entrepreneurship
 
 
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