Based on industry needs, the professional master's degree program in Energy and Power focuses on fields such as new energy technology, power system optimization, efficient energy utilization, and electrical automation, cultivating senior engineering and technical talents with a solid theoretical foundation, strong practical ability, and innovation awareness.
The professional setting closely revolves around the national "Double Carbon" strategic goal, focusing on key technologies in the energy and power field. The research directions cover cutting-edge areas such as the development and utilization of new energy sources, the optimized operation of power systems, smart grid technologies, energy-saving technologies, and the research and development of related equipment. Relying on scientific research platforms such as the National Experimental Teaching Demonstration Center for Electrical and Electronic Engineering and the Institute of Artificial Intelligence, as well as school-enterprise cooperation bases such as China National Petroleum Corporation and State Grid, it has established an integrated "production, education, research, and application" training system. The curriculum highlights engineering practice, offering core courses such as "High Voltage Testing Technology", "Power System Automation", and "Distributed Generation and Microgrid", and setting up practical modules such as embedded system development and energy system simulation.
This discipline focuses on the frontiers of the energy and power field, setting up four major directions: Power Electronics and Electric Drive, Electrical Control Engineering, Power System Automation, and Information Technology in Electrical Engineering. Its characteristic advantages lie in: the combination of production, education, and research, relying on key provincial laboratories and school-enterprise cooperation bases (such as State Grid and Sinopec) to strengthen the cultivation of engineering practice ability; the double supervisor system, with in-school supervisors (professors/doctors) and industry experts jointly guiding, emphasizing the combination of technology research and development and industrial applications; interdisciplinary integration, integrating directions such as electrical engineering, automation, and artificial intelligence to cultivate compound engineering and technical talents. Graduates can engage in research and development, design, and management work in fields such as power systems, new energy enterprises, petrochemical industry, and intelligent manufacturing, with strong employment competitiveness and broad career development prospects.
