动力与能源学院
School of Power and Energy
西北工业大学动力与能源学院是从事航空发动机与新型能源领域的高水平科学研究和高层次人才培养的“三航”特色学院,至今已有80余年的发展历史。
学院有“航空宇航科学与技术”(A+学科)和“动力工程及工程热物理”(工信部重点学科)两个一级学科,包括“航空宇航推进理论与工程”和“工程热物理”、“热能工程”、“流体机械及工程”、“动力机械及工程”、“风能和太阳能系统及工程”6个二级学科;有2个博士后流动站;“飞行器动力工程”和“能源与动力工程”2个本科专业。
The School of Power and Energy of Northwestern Polytechnical University is a "three-aircraft" characteristic college engaged in high-level scientific research and high-level personnel training in the field of aeroengines and new energy. It has a development history of more than 80 years.
The college has two first-level disciplines, "Aerospace Science and Technology" (A+ discipline) and "Power Engineering and Engineering Thermophysics" (Key Discipline of the Ministry of Industry and Information Technology), including "Aerospace Propulsion Theory and Engineering" and "Engineering Thermophysics". There are 6 secondary disciplines of "thermal energy engineering", "fluid machinery and engineering", "power machinery and engineering", "wind and solar energy systems and engineering"; 2 post-doctoral mobile stations; "aircraft power engineering" and "energy and power engineering" "2 undergraduate majors.
附件 Attachment:
Supervisor List for 2022 PhD Application School of Power and Energy.xlsx
重要提示 Notice:
1. 附件为动力与能源学院2022年专业信息表与可接收博士的导师信息表。
The attachments are the Major List and the Spervisor List that can accept the PhD students of the School of Power and Energy in 2022 Academic Year.
2. 请根据此表中导师的教师主页信息以及研究方向选择并联系与你研究方向一致或相似的导师,请不要群发邮件。
Please contact the supervisor according to the their researsh direction and Teacher Website Page information.
Do not send the MASS EMAIL.
3. 导师的邮箱域名为:@nwpu.edu.cn.
Please add: @nwpu.edu.cn after the email adress.
动力与能源学院博士专业介绍 The PhD Major Introduction for the School of Power and Energy |
专业名称 Major |
专业方向名称 Research Direction |
专业介绍 Major Introduction |
专业核心课程名称 Core Courses |
动力工程及工程热物理 Power Engineering and Engineering Thermophysics |
动力工程及工程热物理 Power Engineering and Engineering Thermophysics |
动力工程及工程热物理学科是研究能量以热和功及其它相关的形式在转化、传递过程中的基本规律以及按此规律指导该过程在设备及系统中应用的应用基础科学。动力工程及工程热物理学科主要包括工程热物理、热能工程、动力机械及工程、流体机械及工程和风能和太阳能系统及工程五个研究方向。工程热物理主要内容为爆震燃烧及新概念爆震发动机研究、航空航天发动机中的燃烧与流动、超音速燃烧与流动、工程传热传质、工程热力学;热能工程主要内容为航空燃气轮机传热及高温部件高效冷却技术、高超声速飞行器热气动及传热控制技术、多学科耦合条件下热控制理论与技术、高温高压环境下两相流动与燃烧、燃气蒸汽混合动力、涡轮结构寿命增长技术;动力机械及工程主要内容为动力机械的润滑理论、实验及故障诊断,动力机械的结构、强度、振动、寿命及可靠性,动力系统控制,风机研究及应用;流体机械及工程主要内容为高性能流体机械现代设计理论与试验技术研究,流体机械流动理论、测试与控制,转子动力学研究及故障诊断,进排气系统设计及流动控制技术研究;风能和太阳能系统及工程主要内容为风力发电学、光伏发电、太阳能热利用、清洁生产。
The discipline of power engineering and engineering thermophysics is an applied basic science that studies the basic law of energy in the process of transformation and transfer in the form of heat, work and other related forms and guides the application of the process in equipment and system according to the law. Power Engineering and Engineering Thermophysics mainly include Engineering Thermophysics, Thermal Energy Engineering, Power Machinery and Engineering, and Fluid Machinery And Engineering and Fluid Machinery and Engineering. Engineering Thermophysics main content: Carbon-dioxide and new concepts of carbon-dioxide engines Combustion and flow in aerospace engines, supersonic combustion and flow, engineering heat and mass transfer, Engineering thermodynamics.; Thermal Energy Engineering mainly covers Aviation gas turbine heat transfer and high efficiency cooling technology of Services, aerodynamics and Heat Transfer of Hypersonic vehicles, thermal control theory and technology, two-phase flow and combustion under high temperature and pressure environment, Gas-steam hybrid power, turbine structure life extension technology. Power Machinery and Engineering covers Lubrication theory, experiment and fault diagnosis of Power Machinery, structure and Lubrication theory. Strength, vibration, life and Reliability of power Machinery, power system control, wind turbine. Fluid Machinery and Engineering main content is Modern design theory and test technology of high-performance Fluid Machinery, theory, testing and control of fluid machinery, rotor dynamics and fault diagnosis, Intake and exhaust System Design and Flow control Technology. The main content of Fluid Machinery and Engineering is Wind power, photovoltaic power, solar energy and clean production. |
计算传热computational heat transfer 等离子体物理plasma physics 高等动力学Advanced Dynamics 风力发电学Wind power 高等太阳能应用学Advanced Solar Energy Applications
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航空宇航科学与技术 Aeronautical and Astronautical Science and Technology |
航空宇航推进理论与工程Aerospace Propulsion Theory and Engineering |
航空宇航推进理论与工程主要包括发动机总体设计 、推进系统气动热力学、叶轮机械气动热力学、发动机燃烧与流动、强度、振动与可靠性、传热、传质与热结构、航空推进系统控制、测试、热工程信息处理、状态监测及故障诊断和特种发动机技术九个方向。该学科希望培养出掌握本学科坚实的基础理论、系统的专门知识,具有从事发动机总体、发动机部件、发动机系统、发动机控制、发动机测试以及特种发动机等方面的科学研究、教学工作或独立承担专门技术工作的能力,具有较好的国际交流能力,具有严谨的科研作风,良好的合作精神的研究生。 Aerospace propulsion theory and engineering mainly including Overall engine design,Aerothermodynamics of propulsion system,Aerodynamic thermodynamics of turbomachinery,Engine combustion and flow,Strength, vibration and reliability,Heat transfer, mass transfer and thermal structure,Aeronautical propulsion system control,Testing, thermal engineering information processing, condition monitoring and fault diagnosis and Special engine technology.
Aerospace propulsion theory and engineering plan to cultivate the graduate student who master solid basic theories and systematic specialized knowledge of the subject, has the ability to conduct scientific research and teaching in the fields of engine overall, engine components, engine systems, engine control, engine testing and special engines or independently undertake specialized technical work, has a good international communication ability, rigorous research style, good spirit of cooperation.
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燃烧技术与应用Combustion Technology and Application 工程数据库 Engineering Database 航天推进理论 Space Propulsion Theory 物理化学 Physical Chemistry |