With the continuous development of society and economy, the research and application in the field of energy and power engineering have attracted more and more attention. The postgraduate entrance examination is an important way for many students to continue their studies, and energy and power engineering, as a comprehensive and widely used discipline, has also attracted much attention. This article will introduce the direction of the postgraduate entrance examination in energy and power engineering in detail, so as to help students better understand the research content and employment prospects in this field.
1. Engineering thermophysics.
Engineering thermophysics is one of the core directions of energy and power engineering. This direction mainly studies the basic theories and technologies of heat energy conversion, transfer and utilization. Students need to master the basic knowledge and practical skills of thermodynamics, heat transfer, fluid mechanics and other disciplines, and be able to engage in research and development in the fields of thermal engineering, refrigeration engineering, and power engineering.
2. Thermal engineering.
Thermal engineering is also one of the important directions for the postgraduate examination of energy and power engineering. This direction mainly studies the knowledge and technology of the design, manufacture, operation and management of thermal energy equipment. Students need to master the principles and performance of thermal energy equipment such as boilers, steam turbines, and gas turbines, and be able to engage in the optimal design, performance analysis and fault diagnosis of thermal energy equipment.
3. Power Machinery and Engineering.
Power machinery and engineering is one of the important directions for the postgraduate examination of energy and power engineering. This direction mainly studies the knowledge and technology of the working principle, structural design and performance optimization of various power machinery. Students need to master the principles and structures of power machinery such as internal combustion engines, electric motors, and wind turbines, and be able to engage in the design, manufacturing, and performance testing of power machinery.
4. Fluid Machinery and Engineering.
Fluid machinery and engineering is also an important direction for the postgraduate examination of energy and power engineering. This direction mainly studies the knowledge and technology of the working principle, structural design and performance optimization of fluid machinery. Students need to master the principles and structures of fluid machinery such as pumps, fans, compressors, etc., and be able to engage in the design, manufacture and hydrodynamic analysis of fluid machinery.
5. Refrigeration and cryogenic engineering.
Refrigeration and cryogenic engineering is one of the emerging directions of energy and power engineering. This direction mainly studies the knowledge and technology of refrigeration technology, cryogenic technology and freezing and refrigeration technology. Students need to master the principles of refrigeration, cryogenic technology and the principles and performance of refrigeration and refrigeration equipment, and be able to engage in the optimal design, performance analysis and energy-saving research of refrigeration equipment.
6. Renewable energy technology and engineering.
Renewable energy technology and engineering is one of the popular directions for energy and power engineering in recent years. This direction mainly studies the conversion and utilization technology of renewable energy such as solar energy, wind energy, and hydropower, as well as the knowledge and technology of the design, manufacturing, operation and management of corresponding equipment and systems. Students need to master the basic principles and application techniques of renewable energy technology, and be able to engage in the research and development, design and operation management of renewable energy equipment.
Summary: The above are the main directions of energy and power engineering, including engineering thermophysics, thermal engineering, power machinery and engineering, fluid machinery and engineering, refrigeration and cryogenic engineering, and renewable energy technology and engineering. These pathways require students to have a solid foundation in the discipline and good practical ability, and be able to apply professional knowledge to solve practical engineering problems. When choosing a postgraduate direction, students can choose according to their own interests and research directions, and formulate appropriate study plans and preparation strategies based on Xi the actual situation. 100 help plan