CEEE has always placed special emphasis on undergraduate education and been keen on fostering highly-qualified versatile talents with creativity and ability to adapt to working environment changes.

Undergraduate Education recruits students in the program of the grade-1 discipline - Electrical Engineering and Automation. The professional is mainly oriented to electrical engineering, training scientific research, engineering, technology and management talent about electricity production, transmission the design, manufacturing, operation, measurement and control, and other aspects of a variety of electrical equipment and systems. The specialty is inter-disciplinary crossing Electrical Engineering, Computer Science and Technology, Control Science and Technology.  The basic courses including Advanced Mathematics, Circuit Theory, Theory of Electromagnetic Field, Electrical Machinery Theory, Automatic Control Theory, Basics for Electronic Technology (analogue, digital and power), Basics for Computer, Signals and Systems, Electrical Driven and Control systems. The specialized courses mainly include Power System Engineering, High-voltage Technology, Design for Electromagnetic Devices, Sensor Technology, Building Electrical Technology, etc.

The college gives particular attention to students’ all-round, that is, moral, intellectual and physical, development. In order to stimulate students’ initiative in study, the college carries out some effective systems in which top students are enabled to gain the priority to furthering their graduate study without taking matriculation exams or to choosing the second major or to  one of the various scholarships.

The college advances with the times, pays close attention to the direction of development of the international higher education, and actively exploring the culture of undergraduate education and teaching methods. The college attaches great importance to teaching reform and takes such measures as putting forward the credit sys...

Program Objectives

Facing the areas of power system, electrical equipment manufacture and electrical scientific research, with solid background of mathematics and physics as well as specialized area in electrical engineering, with self-dependent study capability and international vision, can do systematical analysis for complex engineering problems and provide reasonable solutions, with excellent sense of innovation; reflecting strong capabilities of communication, team-work and leadership in engineering practice; with right view of life, strong social responsibility and excellent humanistic quality.  

 Learning Outcomes

Through the study in this program, graduates should be with the following knowledge and capability:

Graduation requirement 1: With the fundamental and special knowledge of mathematics, natural science and electrical engineering, which can be utilized in discovering, expressing and analyzing the related complex problems in power system, electrical equipment manufacture and electrical scientific research.

Graduation requirement 2: With the capability of comprehensive engineering practice including modeling, designing, doing experiment and research on the complex engineering problems related to electrical engineering, with innovative sense.

Graduation requirement 3: With proficient mastery of information technical tools, with the capability of collecting, searching, reading and analyzing information; with proficient mastery of modern engineering tools, can simulate the complex engineering problems related to electrical engineering, with the capability of evaluating and optimizing the solutions and results and showing the innovative capability.

Graduation requirement 4: With the capability of understanding the tendency of the discipline front, paying attention to the new theory, new methods and new technologies in the cross-areas with other disciplines, with international vision and global sense.

Graduation requirement 5: Understanding the policy and la...

NEWS& EVENTS

  • images

    The third quantum oscillation phenomenon is found under the pulsed strong magnetic field

    On November 2nd, based on the experimental device platform of Wuhan National High Magnetic Field Center, Professor Wang Jian and Academician Xie Xincheng of Peking University made a major breakthrough in the field of quantum materials research, and discovered the third law of quantum oscillation - logarithmic quantum oscillation ( figure 1),related research results published in "Science Advance... READ MORE
  • images

    Fred C. LEE, Academician of the American Academy of Engineering, was hired as an honorary professor at HUST

    On October 26th, Fred C. LEE, an academician of the American Academy of Engineering, a foreign academician of the Chinese Academy of Engineering, and a distinguished professor at the Virginia Tech University in the United States, was appointed as an honorary professor at HUST, and also gave a special report on the IEEE Power Electronics Society (“PELS”) Wuhan Chapter.At the ceremony, Prof. We... READ MORE
  • images

    Wuhan National High Magnetic Field Center creates a world record of pulsed flat-top magnetic field strength

    On November 22nd, Wuhan National High Magnetic Field Center successfully achieved 64 Tesla pulse flat-top magnetic field strength, creating a new world record for pulsed flat-top magnetic field strength.In this experiment, Wuhan National High Magnetic Field Center used a single-coil magnet with independent interlayer reinforcement, whose hole diameter is 21 mm, supply by capacitor-type pulsed p... READ MORE
  • images

    National Conference on Fusion Plasma Diagnostics Technology and East Lake Conference on Magnetic Confinement Fusion

    The 5th Conference on National Fusion Plasma Diagnostics Technology Conference and the 4th East Lake Conference on Magnetic Confinement Fusion were held on the shore of East Lake in Wuhan, China,October 20th to 22nd, 2018. The conference was hosted by the International Joint Research Laboratory of Magnetic Confinement Fusion and Plasma Physics (IFPP) of Huazhong University of Science and Techn... READ MORE
  • images

    The breaking capacity of high-voltage circuit breaker developed by Pan Yuan team reaching the highest international level

    On September 17, 2018, supported by China Southern Power Grid Major Scientific Research Project ”Development and application of large-capacity short-circuit current breaking device”, the large-capacity short-circuit current breaking device for 220kV system developed by Academician Pan Yuan team successfully passed the 100kA class short-circuit current breaking test in Xi'an National High-volt... READ MORE
  • images

    SEEE won two awards from the IEEE Industry Application Society Committee Prize Paper Award

    The Tenth Annual IEEE Energy Conversion Congress and Exposition (ECCE 2018) was held in Portland, Oregon, USA on September 23 – 27, 2018. Many teachers and students from SEEE participated in the conference,and won two awards from the IEEE Industry Application Society Committee Prize Paper Award. The paper "A New Perspective on the PM Vernier Machine Mechanism " wrote by Dr. Xie Kangfu won the ... READ MORE