[Edit this paragraph] Business training objectives

This major cultivates the basic knowledge of thermal energy engineering, heat transfer, fluid mechanics, power machinery and power engineering, and can engage in the design, manufacture, operation, management, experimental research, installation, development and marketing of power engineering (such as thermal power plant engineering, fluid machinery, hydraulic machinery, etc.) in national economy and departments.

Considering the professional development of students on a generous basis, the major of thermal energy and power engineering is divided into the following four directions:

(1) Thermal power engineering and control direction with thermal energy conversion and utilization system as the main body (including energy and environmental engineering direction);

(2) The direction of heat engine and automobile engineering with internal combustion engine and its drive system as the mainstay;

(3) The direction of fluid machinery and refrigeration cryogenic engineering mainly focuses on the conversion of electrical energy into mechanical work;

(4) The direction of water conservancy and hydropower power engineering is converted from mechanical work to electrical energy.

[Edit this paragraph] Business training requirements

Students in this major mainly study the basic theories of power engineering and engineering thermophysics, and learn various theories and technologies of energy conversion and effective utilization, which are basically cultivated by modern power engineers; Have the basic ability of design, operation and experimental research of power machinery and thermal equipment.

Graduates should have the following knowledge and abilities:

1. Have a solid foundation in natural science, good foundation in humanities, arts and social sciences, and be able to use the spoken and written languages of their own nationalities correctly;

2. Systematically master the extensive basic knowledge of technical theory in this field, including engineering mechanics, mechanics, engineering thermophysics, fluid mechanics, electrical and electronics, control theory, market economy, enterprise management, etc.

3. Obtain engineering practice training in this professional field, and have strong computer and foreign language application ability;

4. Have the necessary professional knowledge in a certain professional direction in this professional field, and understand its scientific frontier and development trend;

5. Have strong self-study ability, innovative consciousness and high comprehensive quality.

Training objectives

This major mainly trains senior talents with solid theoretical foundation, strong practical ability, adaptability and innovation ability and high moral and cultural quality in the fields of energy conversion and utilization and thermal environment protection, so as to meet the social demand for talents in scientific research, design, teaching, engineering technology and management of this energy and power discipline. Students should have extensive knowledge of natural science, humanities and social sciences, extensive theoretical foundations of heat, mechanics, electricity, machinery, automatic control and system engineering, professional knowledge and practical ability of thermal engineering, and master knowledge of computer application and automatic control technology. Graduates can engage in research, teaching, development, manufacturing, installation, maintenance, planning, management and marketing of energy and power engineering and related aspects. You can also continue your studies in this major or other related majors and pursue master's and doctoral degrees.

[Edit this paragraph] Main disciplines

Power engineering and engineering thermophysics and mechanical engineering

[Edit this paragraph] Main course

Engineering mechanics, mechanical design basis, mechanical drawing, electrical and electronic technology, engineering thermodynamics, fluid mechanics, heat transfer, control theory, testing technology, etc.

Main practical teaching links: including military training, metalworking, electrician, electronic practice, cognitive practice, production practice, social practice, curriculum design, graduation design (thesis) and so on. , generally should be arranged for more than 40 weeks.

[Edit this paragraph] Major professional experiments

Heat transfer experiment, engineering thermodynamics experiment, power engineering test technology experiment, etc.

[Edit this paragraph] Knowledge structure requirements

Tool knowledge

Master a foreign language systematically and master the knowledge of foreign language scientific writing. Master the basic knowledge of computer software and hardware technology, and have the ability of computer application development in this major and related fields; Master the knowledge, methods and tools to obtain information through the network. Be able to retrieve Chinese and foreign literature.

Natural science knowledge

Master advanced mathematics, college physics, engineering chemistry, life science, environmental science and other aspects of knowledge.

Basic knowledge of subject technology

Master the knowledge of engineering drawing, engineering mathematics, theoretical mechanics, material mechanics, mechanical design foundation, metal technology, electrotechnics, electronic technology foundation, engineering fluid mechanics, engineering thermodynamics, heat transfer, computer principle and application, automatic control principle, etc. (The requirements for engineering thermodynamics and heat transfer knowledge in the direction of water conservancy and hydropower power engineering can be appropriately reduced).

professional knowledge

According to the training objectives and specifications of this major, there are differences due to different professional directions.

(1) thermal power and control engineering direction (including energy and environmental engineering direction)

Master the knowledge of thermal energy and power testing technology, boiler principle, steam turbine principle, combustion pollution and environment, power machinery design, thermal power plant, thermal automatic control, numerical calculation of heat and mass transfer, fluid machinery and so on.

(2) the direction of heat engine and automobile engineering

Master internal combustion engine (or turbine) principle, structure, design, test, fuel and combustion, engine emission and environmental engineering, introduction to energy engineering, electronic control of internal combustion engine, heat transfer and heat load of engine, introduction to automobile engineering, etc.

(3) refrigeration cryogenic engineering and fluid machinery direction

Main refrigeration, low temperature source