Thermal Energy Engineering

   

Master degree program for Thermal Energy Engineering
Major Name: Thermal Energy Engineering; major code: 080702; degree authorization category: Engineering
1: Synopsis of subjects
Thermal energy engineering aims to train senior professional talents in energy and engineering who have solid foundation, wide range of knowledge, good ability, high quality, strong ability of practice, good development potential. The professional talents including inter disciplinary talents in energy engineering, energy automation and utility of clean energy, study of energy transition, transmission, utility and related system and equipment. The study aims at wind energy, solar energy, biomass energy and some new energy resource’s development and utilization, traditional energy resources such as petroleum chemical industry, transportation and utilization of natural gas, production and automation of power, refrigeration and air conditioning, development, engineering construction and operation or management of wind energy, solar energy, biomass energy and some other renewable energy resources. This subject is the science closely related to the development of new energy and clean energy.
 
2: Educational objectives
Master degree candidates of thermal energy engineering professional is to become interdisciplinary complex and technical personnel who has all-around development in Moral, intellectual and physical quality. Also the candidates need the firm basis of theoretical knowledge and the strong ability of practice, the basis theoretical knowledge of energy and engineering, the ability of integrated use of energy engineering, automatic electrical control and mechanical engineering. Following is the specific requirement:
1. The candidates should support the Chinese Communist Party leadership and the socialist system, discipline and have good conduct, master the basic principles of Marxism and Mao Zedong thought; conscientiously study Deng Xiaoping Theory; consist the four cardinal principles; love our country; have a strong sense of professionalism and dedication; have the good quality of active in the socialist modernization drive; grasp the basic principles of the energy usage and practical skills.
2.The candidates should have a wider range of knowledge and stronger ability to adapt to work; in the filed of energy technology, master broad basic theory and systematic professional knowledge; be familiar with the research areas of disciplinary development news; have the ability of undertaking the scientific research or responsible for specialized technical work; master and apply one foreign language proficiently.
3.The candidates should have good health.
 
3.The main research directions:
The name of research
Main research contents
Research supervisor
Utilization technology
of waste heat
refrigeration/heat pump technology drived by waste heat of power plant of ship, the economic analysis and optimization of power and cooling multi-energy hybrid systems integrations, cogeneration and energy conservation, comprehensive utilization of waste heat.
Sun Wenzhe, Tu Shuping, Zhao Huizhong, Zheng Xuelin, An Ji.
Storage Technology of energy
Energy storage technology, included accumulation of cold、heat storage technology, energy saving assessments
Zhang Xuelai, Liu Hongmin, Cao Hongfeng, Gao Wenzhong
Enhanced heat transfer of energy utilization
Basic research of renewable energy, advanced heat exchange components and the design of design and theory of application, mathematical modeling and computation of flow and heat transfer.
Chen Wei,Zhang Xuelai, Yang Wanfeng, Mei Guoliang, Chen Lei
Technology of new energy
Effective utilization of solar energy, the technology of solar thermal power,the research of solar thermal cooling , the cooling research of solar application of trader,ocean energy development and utilization of ocean energy,wind power,near-zero emissions with advanced lowed-carbon energy system,graded utilization system,the research of new energy-related policy,etc.
Zhao Huizhong, Chen Wei,Cao Dan, Ji Jun, Jiang Aiguo
 
4.Course design
Course Categories
Course Name
Hours
Credits
Semester
Responsible Institute
Teacher
Teachers
worked
Public degree course
(required,8credits)
Chinese Traditional Culture
36
2
first
 
 
 
Modern Chinese Culture
36
2
first
 
 
 
Chinese
144
4
first
second
 
 
 
Basic degree course
(8 credits)
Numerical analysis
54
3
second
College of arts and sciences
 
 
Modern control
theory
36
2
first
Marine  Merchant College
Chen WenTao
 
Advanced Thermodynamics
54
3
first
Marine  Merchant College
Zhang XueLai
Mei GuoLiang
Major degree course
(9 credits)
Advanced heat transfer
54
3
first
Marine  Merchant College
Cao HongFen
Zhao HuiZhong
Advanced fluid
mechanics
54
3
first
Marine  Merchant College
Chen Wei
Chen Lei
Frontier energy
technology
54
3
first
Marine  Merchant College
Zhang XueLai
Sun WenZhe
Major elective course (6-8 credits)
Energy storage
technology
36
2
second
Marine  Merchant College
Zhang XueLai
Gao WenZhong
Ship refrigeration
and transportation
technology (bilingual)
36
2
second
Marine  Merchant College
Yang WanFeng
Zheng XueLin
Refrigeration and air
conditioning
technology for
energy conservation
36
2
second
Marine  Merchant College
Liu HongMin
Sun WenZhe
Thermal test
technology
36
2
second
Marine  Merchant College
Cao HongFen
Chen Wei
Absorption and
adsorption refrigeration technology
36
2
second
Marine  Merchant College
Sun WenZhe
Zhao HuiZhong
Utilization of solar energy light heat  
36
2
first
Marine  Merchant College
Zhao HuiZhong
Ji Jun
electric control 
of Energy
engineering
36
2
first
Marine  Merchant College
Gao WenZhong
Cao Dan
New energy
technology
36
2
first
Marine  Merchant College
Gan Wei
Ji Jun
Simulation and
emulation
36
2
first
Marine  Merchant College
Chen Wei
Gao WenZhong
Energy engineering
technology for
energy conservation
36
2
first
Marine  Merchant College
Ji Jun
Gao WenZhong
Solar photovoltaic
technology
36
2
first
Marine  Merchant College
Tu ShuPing
Cao Dan
Oes technology
36
2
second
Marine  Merchant College
Cao Dan
An Ji
Air conditioning technology
36
2
second
Marine  Merchant College
Liu HongMin
Tu ShuPing
Solder course
(two, regardless of credits)
According to the specific situation of graduate students, it's designated by the teacher .
Other required link (regardless of credits)
Academic activities and workshops
8 times
First
second
 
Tutor
 
Practice part
60
 
second
 
Tutor
 
Literature reading
 
 
First second
 
Tutor
 
Mid-term examination
At the beginning of the third term
Research requirement
 
Degree thesis
The third and forth term
Other requirements
 
Author scheme: Zhao HuiZhong Executive Dean:  Wu HuiGuo Chairman of The Committee: Zhang XueLai
 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

5. Main bibliography and periodical catalog of literature reading for this course

code
Name of books and journal
Author and publishing units
Remarks
1
Heat Transfer(English edition·
the 10th edition of the original book)
HOLMAN, McGraw-Hill
 
2
Numerical Heat Transfer
Wrote by Wen-Quantao  Xi'an Jiaotong University Press
 
3
Solar cooling
Wrote by Wang Ruzhu, Dai Yanjun Chemical Industry Press
 
4
Heat and mass transfer analysis
Wrote by Eckert(Translated by Hang Qing),Science Press,
1986
 
5
Engineering heat Transfer and mass
transfer
Wrote by Wang Buxun(Volume One),Science Press,1982
 
6
Heat transfer computer analysis
J.A.Wrote by Adams,Science Press,1980.2
 
7
Thermal conductivity and its
numerical analysis
Wrote by Yu Changming,Higher Education Press,1988
 
8
Applied Energy
ISSN: 0306-2619
 
9
Industrial refrigeration
W.F.Stoecker
 
10
Applied Thermal Engineering
ISSN: 13594311
 
11
Energy and Buildings
ISSN: 03787788
 
12
Modern refrigeration and
air conditioning
Andrew,Shanghai Jiaotong University Press,2001.7
 
13
ENERGY
0360-5442
 
14
SOLAR ENERGY  
0038-092X
 
15
New refrigeration technology Q&A
Xu Shiqiong,China Agriculture Press,1999
 
16
Semiconductor cooling and
application of technology
Xu Dengsheng, Shanghai Jiaotong University Press,1992.11
 
17
The technologies and applications of
Lithium bromide absorption
refrigeration
Dai Yongqing,Mechanical Industry Press,1996.11
 
18
Refrigeration and Air conditioning
Xu Desheng、Han Houde,Shanghai Jiaotong University Press,1998.1
 
19
Containerization
Shanghai Maritime University,1998-2002
 
20
Journal of refrigeration
Chinese Association of Refrigeration,1998-2002
 
21
Journal of Chemical Industry and
Engineering
China Association for Science and Technology CN 11-1946/TQ
 
22
Journal of Solar energy
China Society of Solar Energy ISSN0254-0096
 
23
Journal of Engineering
Thermophysics
Chinese Society of Engineering Thermophysics
ISSN 0253-231X
 
Description
Literature Reading:
During the time in school, master degree candidates need to read some Chinese and foreign information according to the research direction of this subject, combined with the scientific research of tutors and the topic of themselves,master the cutting edge of development of the subject.
 
6. The graduates’ practical ability education of this discipline
     The practical ability training of this subject's Master degree candidates focus on training the Master degree candidates' creative thinking and innovation ability and willing the teaching goal by training the "knowledge" talent to develop "innovative" talents. The aim of practical ability training of this subject's Master degree candidates focus on the followings:
1) Teaching plan should give full consideration to training students' practical innovation ability, when making teaching plans, adhere to the thought of "teach students in accordance with their aptitude, classification guidance", the cultivation of the students' practice ability, and innovative consciousness and innovative ability.
2) To take part in scientific research practice is to improve the important link of the practical innovation ability, thus strengthening the practice ability and innovation ability.
3) Experiment teaching for students with a kind of independent learning environment, not only can train the students' basic experiment ability, but also can deepen our comprehension and improve the learning efficiency.
4) To strengthen all kinds of social practice, to improve the quality of innovation in social practice in the process of graduate student success has irreplaceable role, and is the important way of comprehensive improvement of graduate student 's quality .
5) Extracurricular activities in science and technology research and engineering practice is to enhance graduate innovative consciousness and innovative ability of effective link to cultivate students' innovation consciousness and innovative ability.
With the guide of tutor, master degree candidates should be trained to do scientific research or undertake the specific technical work, to analysis and solve the problem. With the application of knowledge, the candidates should participated in the scientific subject of the tutor, choose and take part in the research subject which is important to the development of this subject, and also the candidates need to take part in the practice work in laboratory, and in the assistant teaching of this subject. The new idea and knowledge which can be getting from the engineering practice must be reflected in scientific dissertation to insure the quality of the thesis.