Power Engineering and Engineering Thermophysics
Objectives
The aim of this program is to impart a sound theoretical basis and a thorough professional knowledge of mechanical engineering to participants who should develop a rigorous scientific approach, pioneering spirit and strict academic morality.
Upon completion of the program, students are expected to:
1. Be able to do high-level scientific research independently.
2. Be expert at interdisciplinary research.
3. Broaden their academic vision.
4. Be proficient in a foreign language, especially obtain the necessary competency in reading foreign literature, writing papers and international communication.
Core Courses
|
Hours
|
Credit
|
|
|
Advanced Heat Transfer
|
48
|
3
|
|
Advanced Combustion Theory
|
32
|
2
|
|
Signal Analysis and Processing
|
48
|
3
|
|
Advanced Fluid Mechanics
|
48
|
3
|
|
Elastic-plastic Mechanics
|
48
|
3
|
|
Advanced Engineering Thermodynamics
|
48
|
3
|
|
Finite Element Method
|
48
|
3
|
Graduation & Degree Requirements
Students are required to complete a minimum of 16 credits for graduation.
Career prospects
Most of our graduates filled responsible positions relating to power engineering and engineering thermophysics in petroleum institutions. Some graduates pursue further studies.
