Energy power class is divided into four professional direction: thermal engineering, heat engine, fluid machinery and engineering, air conditioning and refrigeration
Thermal and power engineering, ① thermal engineering professional direction: thermal engineering is the study of thermal energy release, conversion, transfer and rational use of the discipline, which is widely used in energy, power, space technology, chemical industry, metallurgy, It is widely used in energy, power, space technology, chemical industry, metallurgy, construction, environmental protection and other fields. Cultivate engaged in thermal engineering and engineering thermophysics research, design, operation and management, product development of senior engineers and technicians.
② thermal engine professional direction: thermal engine is mainly the study of high-speed rotary power plant, including steam turbines, gas turbines, turbojet and turbofan engines, compressors and fans, such as design, manufacturing, operation, fault monitoring and diagnosis, as well as automatic control. The program aims to cultivate senior engineering talents for aviation, aerospace, energy, shipping, petrochemical, metallurgy, railroad and light industry. Graduates of the major direction include: power generation equipment development, design and production departments, large power stations, aviation, aerospace engine research, production departments, ship engine research, production departments, as well as the development of power equipment, production, operation of Wanhua system departments.
③ fluid machinery and fluid power engineering professional direction: the main study of fluid machinery and its work system automation, fluid circulation system energy saving, etc., in the hydropower and water conservancy, machinery manufacturing, transportation, petrochemical, engineering machinery, food and textile, aerospace and aviation, naval weaponry and even municipal facilities, industrial and civil construction and other sectors have a wide range of applications. The professional direction includes fluid machinery and various types of fluid power system design, operation and automation management, control theory and engineering applications, training in vane pumps, hydraulic turbines, fans, hydraulics, fluid transmission and control, turbulence control, microscale channel flow, viscoelastic non-Newtonian fluid dynamics and other aspects of the research, design, manufacturing, operation and product development and scientific research of senior engineering and technical personnel.
④ air conditioning and refrigeration professional direction: the main study of refrigeration and low temperature technology. It is widely used in energy, aerospace, aviation, automotive, petrochemical, food and pharmaceutical production, medical equipment and air conditioning and refrigeration equipment production and other fields. This specialty direction cultivates senior engineering and technical personnel engaged in air-conditioning and refrigeration engineering and equipment design, operation and management, product development and scientific research. This professional direction corresponds to the refrigeration and low temperature engineering disciplines, with master's degree, doctoral degree conferring rights.
Energy power class nuclear reactor engineering, nuclear science and technology on human life and the world pattern of influence increases year by year, in the energy, resources, environment, and human health and other aspects of a wide range of applications. With the continuous development of China's nuclear technology and nuclear industry and national investment in the field of nuclear technology continues to increase, there is an urgent need for high-quality nuclear science and technology personnel to supplement the relevant units. This program is designed to cultivate high-level composite engineering talents with the basic knowledge structure of nuclear engineering technology and engineering thermophysics, supplemented by mechanical, electrical, and computer technologies, and the combination of science and technology.
Students through systematic learning, will have solid mathematics, physics, engineering mechanics, mechanical principles, electrical and electronic basic knowledge, heat transfer, fluid mechanics, engineering thermodynamics, automatic control, computer applications and other specialized basic knowledge, as well as the physical analysis of nuclear reactors, nuclear reactors, thermo-hydraulics, nuclear power plant and equipment, nuclear reactor safety analysis, nuclear reactor design principles, Nuclear power plant test technology, nuclear power plant operation and control and other specialized knowledge.
In addition to pursuing the master's degree, graduates can be engaged in planning, design, operation, construction, management, education and research and development in government departments, planning departments, military departments, research and design units related to the nuclear power industry and radiation science, nuclear power plants, and colleges and universities.
Energy power class aircraft power engineering, aircraft power system is the heart of aviation, spacecraft, aviation, spacecraft in the most critical components. The level of development of aircraft engines is a symbol of a country's industrial base and strength. This specialty mainly studies the theory and technology of aviation, space propulsion power. Cultivate in aviation, aerospace, transportation, energy, environment and other related fields engaged in thermal power research, design, experimentation, development and management of senior engineering talents.
Air Vehicle Power Engineering is a multidisciplinary, technology-intensive program with four research directions: engine design and engineering (including structural integrity analysis and CAD); engine flow and combustion (including work process simulation); engine control and testing technology; engine strength, vibration and fault diagnosis. Through systematic study, students will have solid basic knowledge of mathematics, physics, engineering mechanics, mechanical principles, aerodynamics, engineering thermodynamics, solid mechanics, automatic control, computer applications, principles of aircraft power plant and structural strength and other specialized basic knowledge. Mainly for aviation, aerospace, naval and other industrial sectors to train senior engineering and technical personnel. The corresponding power machinery and engineering disciplines of this program are national key disciplines, with master's degree and doctoral degree granting rights. Graduates of this program mainly go to: aviation engine development, design and production departments, aerospace engine development, design and production departments, naval gas turbine development, design and production departments and civil gas turbine development and production departments.