Ph.D. Programs for International Students

重庆大学电气工程学院

电气工程专业留学博士（四年）培养方案

College of Electrical Engineering, Chongqing University

Ph.D. for studying abroad (four years) Graduate Program in Electrical Engineering

一、 培养目标与基本要求

Ⅰ. Training objectives and basic requirements

（一） 培养目标

(Ⅰ) Training Objectives

培养了具有良好的科研道德，严谨求实的科学态度，开阔的国际化视野与较强创新意识的电气工程专业高层次创新型研究人才，能够从事电气工程相关的教学、科研、设计、管理或相关工程技术工作，能够在本学科或专门技术上做出突出的创新性成果。

The program aims to cultivate high-level innovative research talents who can make outstanding and innovative achievements in this discipline or expertise with good scientific research ethics, rigorous and realistic scientific attitude, broad international vision and strong innovation consciousness, capable of engaging in teaching, research, design, management or Engineering and technical work related to electrical engineering.

（二） 基本要求

(Ⅱ) Basic Requirements

（1）具有良好的科研道德、为科学献身的精神、科学发展的理念、严谨求实的科学态度、勇于创新的工作作风，崇尚科学，追求卓越。

(1) Have a good scientific research ethics, a spirit of dedication to science, a concept of scientific development, a rigorous and realistic scientific attitude, a courageous and innovative work style, advocate to science, and pursue excellence;

  （3）具有独立的科研能力、较强的学术鉴别能力、强烈的创新意识，具备在学科前沿重大需求课题中开展深入研究的能力，并取得创新性的成果；

(3) With independent scientific research ability, strong academic identification ability, strong sense of innovation, and the ability to carry out in-depth research in the major needs of the frontier of the discipline, and achieve innovative results;

 （4）具备较强的专业写作、表达与学术交流能力。

  (4) Armed with strong professional writing, expression and academic communication skills.

二、 研究方向

Ⅱ. Research Track

（1） 高电压绝缘与配合方向

(1) High voltage insulation and matching track

主要研究复杂大气环境中输配电装备外绝缘放电机理及其数学物理模型和电气特性与故障防御、雷云放电机理及雷电屏蔽模型、电力系统过电压传播机理与实时监测及故障防御和接地技术等。

Mainly studies the external insulation discharge mechanism of transmission and distribution equipment in complex atmospheric environment as well as its mathematical physical model, electrical characteristics and fault defense, lightning cloud discharge mechanism and lightning shielding model, power system overvoltage propagation mechanism and real-time monitoring as well as fault defense and grounding technology etc.

（2） 电气设备在线监测与故障诊断方向

(2) Online monitoring and troubleshooting of electrical equipment

主要研究输配电装备故障的产生和传播规律、智能传感及其抗干扰技术、输配电设备绝缘系统多因素老化变化规律、剩余寿命预测的方法和判据、多因素故障模型建模与故障诊断及状态维修策略等。

Mainly studies the generation and propagation of faults in transmission and distribution equipment, intelligent sensing and anti-jamming technology, multi-factor aging change law of transmission and distribution equipment insulation system, residual life prediction method and criterion, multi-factor failure modeling and Fault diagnosis and status maintenance strategies etc.

（3） 新型电工绝缘材料与新技术方向

(3) New electrical insulation materials and new technology track

主要研究新型绿色环保纳米植物绝缘油制备及其老化机理与寿命模型、纳米绝缘纸制备及其放电与老化机理、固态微/纳秒复合脉冲技术及其高端医疗装备、高功率脉冲产生与测量技术及应用等。

Mainly studies the preparation of new ecological and environmental nano-plant insulating oil and its aging mechanism as well as life model, nano-insulating paper preparation and its discharge and aging mechanism, solid micro/nanosecond composite pulse technology and its high-end medical equipment, high-power pulse generation and measurement technology and applications etc.

（4） 电磁场理论与应用方向

(4) Electromagnetic field theory and its application track

主要研究理论与计算、电磁测量及应用、电磁兼容及其应用、磁探测及应用、电力信号检测与分析等。

Mainly studies theory and calculations, electromagnetic measurement and its application, electromagnetic compatibility and its applications, magnetic detection and its application, power signal detection and analysis etc.

（5） 生物电工学方向

(5) Bio-Electrology track

主要研究医学与生命科学中的理论与应用、磁场在生物和环境科学中的理论与应用等。

Mainly studies the theory and application in medicine and life science, and the theory and application of magnetic field in biology and environmental science etc.

（6） 电力系统规划与可靠性方向

(6) Power system planning and reliability evaluation

主要研究电源和输电网规划及可靠性评估理论和模型，涉及高渗透、高比例新能源下电源和输电网协同规划，计及新能源随机性的电力系统概率风险评估模型。

Mainly studies the theory and model of power supply and transmission network planning as well as reliability assessment, the coordinated programming of power supply and transmission grid under high-permeability and high new energy proportion, and the power system probabilistic risk assessment model considering the randomness of new energy.

（7） 电力系统保护与控制方向

(7) Power system protection and control track

主要研究电力系统经济调度、稳定控制、继电保护和电力系统自动化方面的相关技术，涉及交直流混联系统运行特性分析、含新能源电网运行控制、故障分析方法研究、继电保护方案等。

Mainly studies related technologies of power system economic dispatching, stability control, relay protection and power system automation, the analysis of operational characteristics of AC/DC hybrid systems, operation control of grids with new energy, research on fault analysis methods, and relay protection schemes etc.

（8） 新型电机及其控制系统方向

(8) New motor and its control system track

针对新型电机及其系统，研究该类电机的电磁设计原理、方法；研究该类电机的相关驱动控制技术；从一体化角度研究电机的设计与控制系统的相互影响，并针对新型电机及其驱动控制系统在相关领域的应用，展开研究。

For new types of motor and their system, the electromagnetic design principle and method of the motor are studied; the related drive control technology of the motor is studied; the interaction between the design and control system of the motor from the perspective of integration, and the application of new-type motor and its drive control systems in related fields are studied.

（9） 新型发电及其系统分析方向

(9) Newly-kind power generation and its system analysis track

研究新能源发电系统及其接入电网特性，主要围绕新能源发电机的设计与系统控制展开研究，同时包含新型发电系统接入电网后的相互影响等方面的研究。

Studies the new energy power generation systems and the characteristics of their access to power grids, mainly focusing on the design and system control of new energy generators, simultaneously including the interaction of new power generation systems after accessing the power grid.

（10） 电力电子变流技术方向

(10) Power electronic converter technology track

该方向致力于电力电子变流器拓扑及控制技术的研究，包括：新型变换器拓扑、新型电力电子器件、电能质量及控制、电力电子变换器可靠性、新能源发电并网控制、特种电源等方面。

This track is devoted to the research of power electronic converter topology and control technology, including: new converter topology, new power electronics, power quality and its control, power electronic converter reliability, new energy generation grid-connected control, special power supply etc.

（11） 电气传动技术方向

(11) Electric drive technology track

该方向致力于电气传动技术的控制及应用研究，包括：交直流调速系统理论、电动汽车动力驱动系统以及能源管理系统、现代控制理论在电气传动中的应用等方面。

This track is devoted to the control and application research of electric drive technology, including: AC and DC speed control system theory, electric vehicle power drive system and energy management system, and the application of modern control theory in electric drive.

（12） 工业与民用电气系统运行与节能方向。

(12) Industrial and civil electrical systems operation and energy saving track

以满足工业与民用电气系统高效、优质、节能需求为目的，研究中低压配电系统的供用电智能化技术、供用电安全技术、供电质量分析与改善技术、建筑物电气设备的网络化控制技术等。

To meet the requirements of high efficiency, high quality and energy saving for industrial and civil electrical systems, research on the intelligent power supply technology for medium and low voltage distribution system, the power supply safety technology, the power supply quality analysis and improvement technology, and the networking control technology  of electrical equipment in buildings etc.

三、 学制及授予学位

III．Academic system and degree conferment

(一) 学制：4年

(Ⅰ) Academic system: 4 Years

(二) 学位名称及类别：电气工程 学术学位博士

(Ⅱ) Degree name and category: Electrical Engineering academic degree doctor

四、培养环节及学分要求

IV. Training links and credit requirements