东莞理工学院能源动力专业硕士学位点（专业代码：085800）采用全日制培养方式，学制为2年。学位点依托动力工程及工程热物理、化学工程与技术、电气工程及其自动化等优势学科建设，致力于培养具有国际视野、创新意识、工程实践能力和跨文化协作能力的高层次应用型专业人才。

本学位点坚持理论学习、科研训练与工程实践相结合，注重培养学生解决复杂工程问题的能力。学生将系统掌握能源开发、转换、利用、节能减排、新能源系统、电气工程、动力工程等方面的基础理论与工程技术方法，能够胜任能源动力及相关领域的科学研究、技术开发、工程设计、系统运行、项目管理和技术服务等工作。培养过程中强调前沿技术与工程应用深度融合，鼓励学生围绕清洁能源利用、智能电网、储能技术、低碳动力系统、能源高效利用等全球性议题开展研究。

围绕清洁低碳、安全高效的现代能源体系建设需求，本学位点设置电气工程、动力工程、清洁能源技术三大特色方向。电气工程方向聚焦电能变换、智能变频驱动、新能源并网、储能系统建模与控制、电力系统运行与保护等领域；动力工程方向聚焦分布式能源系统、能源综合梯级利用、复杂流动与流体工程、新能源动力系统热管理、燃烧污染控制等领域；清洁能源技术方向聚焦新能源综合利用、生物质高效催化转化、建筑节能与可再生能源应用、工业节能、新型储能与高效散热技术等领域。

毕业生可在新能源、节能环保、储能技术、智能电网、能源装备、高端制造等行业从事研发、设计、运行、管理和技术服务等工作，也可继续深造或进入科研机构、高等院校及相关管理部门发展，具有广阔的职业前景。

学位点师资力量雄厚，构建了一支学术造诣深厚、工程经验丰富、产学研深度融合的高水平导师队伍。。

The Master's Degree Program in Energy and Power (Professional Code: 085800) at Dongguan University of Technology is a full-time program with a two-year duration. The program is built upon the University's advantageous disciplines, including Power Engineering and Engineering Thermophysics, Chemical Engineering and Technology, and Electrical Engineering and Automation. The program is committed to cultivating high-level application-oriented professionals who possess international vision, innovation awareness, engineering practice capabilities, and cross-cultural collaboration skills.

The program adheres to a combination of theoretical learning, research training, and engineering practice, with emphasis on developing students' ability to solve complex engineering problems. Students will systematically acquire fundamental theories and engineering technical methods in areas such as energy development, conversion, utilization, energy conservation and emission reduction, new energy systems, electrical engineering, and power engineering. Graduates will be competent to engage in scientific research, technology development, engineering design, system operation, project management, and technical services in energy and power and related fields. The training process emphasizes the deep integration of cutting-edge technologies with engineering applications, encouraging students to conduct research on global issues such as clean energy utilization, smart grids, energy storage technologies, low-carbon power systems, and efficient energy utilization.

Focusing on the construction needs of a clean, low-carbon, safe, and efficient modern energy system, the program offers three distinctive directions: Electrical Engineering, Power Engineering, and Clean Energy Technology. The Electrical Engineering direction focuses on areas including power conversion, intelligent variable frequency drives, new energy grid integration, energy storage system modeling and control, and power system operation and protection. The Power Engineering direction focuses on areas including distributed energy systems, comprehensive cascade utilization of energy, complex flow and fluid engineering, thermal management of new energy power systems, and combustion pollution control. The Clean Energy Technology direction focuses on areas including comprehensive utilization of new energy, efficient catalytic conversion of biomass, building energy efficiency and renewable energy applications, industrial energy conservation, and novel energy storage and efficient heat dissipation technologies.

Graduates can pursue careers in research, development, design, operation, management, and technical services in industries such as new energy, energy conservation and environmental protection, energy storage technology, smart grids, energy equipment, and high-end manufacturing. They may also choose to pursue further studies or work in research institutions, higher education institutions, and related government departments, enjoying broad career prospects.

This discipline boasts a strong faculty team with outstanding academic attainments, rich engineering experience and in-depth industry-university-research integration.