Basic educational system: four years | Enrollment target: | Education: technical secondary school | Professional code: 08050 1

Training objectives

Training objectives

Training objectives: Based on the theories of thermal energy engineering, mechanics and mechanical science, this major uses computers and control technologies as tools to train senior scientific and technological talents with basic theories and applied technologies of energy production, transformation and utilization, and power system research and development, as well as the concept of energy conservation and emission reduction, who can engage in energy power, artificial environment, new energy research and development, optimal design, advanced manufacturing, intelligent control and application management in industrial, national defense and civil fields.

Training requirements: Students in this major mainly study various theories and technologies of energy conversion and effective utilization, receive basic training in modern science and engineering, master the basic theories of energy, thermal science and power system, master modern tools such as computers and control technologies, have the necessary engineering knowledge of equipment research and development, design, manufacture and application management in the fields of energy saving, refrigeration, electric power, environmental protection and new energy development and utilization, and initially have the ability to use what they have learned to propose, analyze and solve problems in this major. Students in this major should also have effective communication skills, good professional ethics and team spirit, a sense of responsibility for occupation, society and environment, and establish the concept of energy conservation and emission reduction.

Graduates should have the following knowledge and abilities:

1. Master and apply the basic knowledge of engineering science related to this major, such as mathematics, physics, mechanics, materials, machinery, thermal energy engineering, control, electrician, electronics, etc.

2. Have the ability to put forward, analyze and solve problems specifically for the energy power system, have the personal ability and professional quality to meet the requirements of this major, be able to design and develop new energy products and systems, and carry out operation and maintenance, and have the ability of integrated innovation;

3. Understand the industry demand dynamics of energy production, transformation and utilization, be familiar with the theoretical frontier and application background of energy efficient transformation and utilization technology, and implement the principles, policies and technical routes of energy conservation and emission reduction;

4. Have preliminary engineering practice experience in energy and power enterprises, understand the development trend of energy and power engineering technology, master and apply relevant new technologies to serve the society in time, and become an engineering and technical talent with innovative spirit and ability and good at solving practical problems.

Main subjects: power engineering and engineering thermophysics, mechanical engineering.

Core knowledge fields: basic knowledge of thermal science (engineering thermodynamics, engineering fluid mechanics, heat transfer), basic knowledge of engineering design (engineering drawing, mechanical design), basic knowledge of electrical and electronic engineering (electrotechnics, control theory), etc.

Example of core courses:

Example 1: engineering fluid mechanics (56 hours), heat transfer (56 hours), engineering thermodynamics (56 hours), basic principles and modeling of combustion (24 hours), basis of mechanical design (48 hours), basis of mechanical drawing and CAD (24 hours), electrician and electronics (72 hours) and automatic control theory (32 hours).

Example 2: Engineering Fluid Mechanics (A)(72 hours), Heat Transfer (72 hours), Engineering Thermodynamics (72 hours), Fundamentals of Combustion Theory (16 hours), Fundamentals of Mechanical Design (64 hours), Automatic Control Theory (72 hours), Theoretical Mechanics (48 hours) and Material Mechanics (48 hours).

Example 3: fluid mechanics (80 hours), heat transfer (60 hours), engineering thermodynamics (75 hours), combustion science (30 hours), mechanical principle and design (90 hours), engineering drawing (90 hours), electrician and electronics (90 hours), automatic control principle (30 hours), engineering mechanics (65438+.

Main practical teaching links: engineering training (metalworking practice), basic course design of mechanical design, production practice, professional course design, graduation project (graduation thesis), etc.

Main professional experiments: electrical and electronic experiments, thermal experiments (including engineering thermodynamics experiments, engineering fluid mechanics experiments, heat transfer experiments), and professional experiments in energy and power-related directions (such as combustion experiments, thermal control and testing experiments).

Length of study: four years.

Degree awarded: Bachelor of Engineering.

Professional ability requirements

Professional ability requirements

The main contents of professional teaching

The main contents of professional teaching

Engineering mechanics, mechanical design basis, engineering thermodynamics, fluid mechanics, heat transfer, control theory, fluid machinery, energy and power machinery testing technology, thermal energy and power engineering testing technology, intelligent device automation, low temperature principle and technology, refrigeration principle and automatic control of thermal process.

Major (skill) direction

Major (skill) direction

Industrial enterprises: thermal energy engineering, power engineering, refrigeration engineering, HVAC engineering, product development, mechanical design, process design, production technology, technology development and production management.

Example of vocational qualification certificate

Example of vocational qualification certificate

Examples of continuing learning majors

Employment direction

Employment direction

The major of energy and power engineering is to cultivate compound senior talents who master modern energy science and technology, information science and technology and management technology, and are engaged in design, operation, automatic control, information processing, computer application, environmental protection, refrigeration and air conditioning, efficient and clean utilization of energy and new energy development with broad knowledge, solid foundation and strong innovation ability. Let Bian Xiao introduce the employment prospect and direction of thermal energy and power engineering to readers! First, the employment prospects of thermal energy and power engineering.

This major belongs to the category of energy and power, and it is one of the national key development fields with broad development prospects. Including the original heat engine, thermal energy engineering, fluid machinery and fluid engineering, thermal energy engineering and power machinery, refrigeration and low temperature technology, energy engineering, engineering thermophysics, water conservancy and hydropower power engineering, refrigeration and refrigeration engineering. It is a major with a large caliber, and there is a lot of room for expansion. At present, there are many colleges and universities offering this major, and their learning directions are different, such as fluid machinery and its automatic control direction. Graduates can engage in research, design, planning, production, teaching and management in scientific research units, companies, enterprises, universities and government management departments related to fluid machinery, fluid engineering, power station operation management, hydraulic and pneumatic, aerospace, water supply and drainage, energy utilization and other industries. For the direction of thermal energy engineering and automation in power plants, graduates can engage in related research, teaching, development, planning, management and marketing in power system design and research institutes, thermal power plants, thermal power plants, power equipment manufacturing enterprises, universities, companies and government management departments related to energy and environmental protection. Engineering thermophysical process and its automatic control direction, graduates can engage in related research, development, teaching, planning, management, marketing and other work in scientific research institutes, enterprises, universities and government management departments related to energy utilization, combustion equipment, automatic control system of thermal process, microelectronic devices, environmental protection and air pollution control, heat exchange equipment and power machinery.

Generally speaking, the employment rate of graduates of this major can reach over 90%, and the employment rate of graduates of some key universities can reach 100%. In Shanghai and southern Jiangsu, many boiler, air conditioning, automobile and engine manufacturing industries are in urgent need of talents in this field.

Salary and treatment of thermal energy and power engineering major

Second, the employment direction of thermal energy and power engineering specialty

Graduates of this major can engage in design, operation, automatic control, information processing, environmental protection, clean energy utilization and new energy development in thermal power plants and power companies, electric power design and research institutes, large and medium-sized energy-using enterprises, government planning and environmental protection departments, refrigeration and air-conditioning equipment enterprises, universities and other fields.

After graduation, students majoring in thermal energy and power engineering can engage in the design, manufacture, operation, management, research, development and marketing of power machinery (such as heat engine, fluid machinery and water conservancy machinery) and power engineering (such as thermal power plant engineering, hydroelectric power generation engineering, refrigeration and low temperature engineering and air conditioning engineering) in various departments of the national economy.

Thermal energy and power engineering work

Thermal engineer, thermal engineer, etc.

Corresponding occupation (post)

Corresponding occupation (post)

Other information:

Different universities majoring in energy and power engineering will focus on different research and training directions, and their employment directions mainly include three directions: thermal energy direction, power direction and refrigeration direction, and each direction can also be divided into different industries. Moreover, your employment direction is related to the focus of your university professional training, depending on whether you prefer thermal power plants, power machinery or refrigeration and air conditioning. Employment direction of energy and power engineering 1. Direction of thermal energy: Thermal energy of thermal power plants, nuclear power plants, metallurgy and other power plants belongs to the electric power industry, and the employment of graduates tends to state-owned enterprises, such as the famous "five big and four small" and "two big power grids" in the industry. Generally, fresh graduates are engaged in operation posts after entering the power plant, and their career development route is from patrol inspection → deputy control → main control → long-term value, and then they are promoted to vice minister and minister of operation department, belonging to the middle level of the power plant. The operation is quite special, and it is hard to work in shifts. Many graduates choose to take the power grid exam. Power grid work is not as hard as power generation, but it is more difficult to test the power grid, and most of them only need electrical engineering and automation. Nuclear energy belongs to the nuclear power industry, and well-known enterprises include CGNPC, CNNC and National Nuclear Power Technology Center. Most of the jobs of recent graduates are operation and maintenance work, and nuclear power plants are generally in remote places, far away from urban areas. Metallurgical heat energy (heating furnace, heat treatment furnace) belongs to metallurgical industry. Famous metallurgical enterprises include Baosteel Group (Baoshan District, Shanghai), Anshan Iron and Steel Group (Anshan, Liaoning), Wuhan Iron and Steel Group (Wuhan, Hubei), Pangang Group, Benxi Iron and Steel Group, Laiwu Iron and Steel Group, Pohang Iron and Steel Group and their design institutes. 2. Power direction: internal combustion engine, turbine, etc. Ship power (turbine) is the shipbuilding industry. Famous shipbuilding groups include Dalian Shipbuilding Industry Group, Shanghai Waigaoqiao, Shanghai Hudong, Shanghai Jiangnan Shipbuilding, COSCO Shipbuilding, Huludao Shipbuilding, STX Shipbuilding, Kawasaki Shipbuilding, Samsung Shipbuilding and other shipyards and their design institutes. Automobile and train power (internal combustion engine) is the automobile and locomotive industry. Well-known enterprises include FAW, Jianghuai Automobile, Geely, Chery and BYD. 3. Refrigeration direction: air conditioner, compressor and refrigeration equipment. Compressor, air conditioner, etc. Belonging to the household and commercial electrical appliance industries. Famous companies include Haier, Samsung and Siemens. Generally speaking, the industries that most people go to after graduating from energy and power engineering are power generation, transmission, automobile manufacturing, engine, steam turbine and transmission equipment manufacturing; These positions are power plant operators, electronic and electrical maintenance technicians in power station substations and relay stations, and HVAC technicians. If the postgraduate entrance examination is a research and development post, 2 1 1 or above graduate students have the opportunity to go to a good design institute. Introduction to Energy and Power Engineering Training Objective: To train senior engineering and technical personnel who have the basic knowledge and theoretical basis of energy science and power engineering and can engage in energy and power engineering, energy and environmental protection, artificial environment, new energy research and development, manufacturing, operation, management, experimental research and installation, marketing and other work in national economic fields such as industry, agriculture and civil defense. Main courses: college chemistry, descriptive geometry and mechanical drawing, college physics, theoretical mechanics, engineering mechanics, mechanical design basis, electrical and electronic technology, engineering thermodynamics, fluid mechanics, material mechanics, control theory basis, energy system and automation, testing technical heat energy, etc. (Specialized courses will vary according to the school's emphasis).