PART ONE Introduction
The major of Energy and Power Engineering in School of Energy and Power Engineering, Shandong University is a broad specialty, which ranks a higher level in China. This major started to recruit undergraduate students in 1958, and it is now a featured major among domestic universities. Up to now, 27 Professors, 19 PHD supervisors, 35 associate professors/equivalent professional position staff work in School of Energy and Power Engineering. Within our research team, there are renowned scientists: 1 is the chief scientist of National 973 Program, 1 is distinguished professor from the “Changjiang Scholars Program of the Ministry of Education”, 2 is involved in “National New Century Talents Project”, 1 is awarded the “Taishan Scholar”, 3 is involved in “New Century Talents Program of the Ministry of Education”, 5 experts enjoy special allowances from the central government. The school has a National Engineering Laboratory of Coal-burning Pollution Reduction, a Research Center of the Ministry of Education in Environmental Thermal Process Engineering, a Centre for Carbon Emission Reduction and Resource Utilization of Shandong Key Laboratory and 4 Shandong Research Centre of Engineering Technology. After years of development, the major is featured as broad field, good fundament, highlighted practical training and innovations. The major of Energy and Power Engineering involves five fields including Thermal Power of Power Plants, Automation of Thermal Processes, Thermal Engine, Thermal Engineering and Refrigeration and Low-temperature Engineering. Students take elementary courses together and they will choose theirs interested fields once the fourth semester is finished. The aims of this major are to cultivate the students with basic theory and professional knowledge in the fields of Thermal Engineering, Power Machinery, Power Engineering, Automation of Thermal Processes and Refrigeration and Low-temperature Engineering; to cultivate talents for the areas of scientific research, technological development, design and manufacture, operational control and tech-economy management.
PART TWO Educational Objectives
This major is to cultivate students to develop the basic theory of Power Engineering and Engineering Thermophysics; to systematically grasp the professional knowledge and skills of energy efficient conversion and clean utilization, energy power plant and system (including conventional and new energy); to have a sense of social responsibility; to have good humanistic quality and professional ethics; to have a sound mind and a strong body, international view; and to study independently, to have the skills in organization and management, communication and cooperation, innovation and entrepreneurship and engineering practice. The field of Energy and Power Engineering aims to cultivate high-level talents and future leaders to satisfy the social needs of scientific research, technological development, design and manufacture, operational control, education and production management.
PART THREE Goals and Requirements
1. Knowledge Requirements
① Knowledge of Humanities and Social Science
To grasp the knowledge of foreign language, economy, management, Chinese studies, history, law, art, situation and policy, military and defense, etc.
② Basic Knowledge of the Subject
To grasp the basic theory and basic knowledge in Energy and Power Engineering, including the basic subjects of Mathematics, Physics and Chemistry.
To grasp the basic theory and basic knowledge in Energy and Power Engineering, including the associated subjects of Mechanics, Machinery, Materials, Electrics and Electronics, Computer, Environment and Control.
③ Basic Knowledge of the Major
To grasp the basic theory and basic knowledge in Thermal Science, Fluid Sciences, Energy Conversion and Utilization, Pollutant Emission and Control, Testing and Control Techniques, including the basic professional theory of Engineering Fluid Mechanics, Engineering Thermodynamics, Heat Transfer, Combustion Principle and Technology, Testing Techniques of Energy and Power Engineering and Principle of Automatic Control.
④ Professional Knowledge
To grasp the basic theory and basic knowledge in research and development, design, manufacturing, energy saving and environmental protection, operation and management, fault diagnosis and reliability analysis of energy and power systems and devices, including the professional knowledge, design and analytical method of Principles of Boiler, Principles of Steam Turbine, Principles of ICE, Principles and Equipments of Refrigeration, Power Plant Automation Technology, Control Process of Energy and Power Engineering, New energy Science and Technology, Nuclear Electricity Generation.
2.Skill Requirements
① Independent Study:to have the ability to study independently, think independently and explore actively; to have the ability to do literature review, retrieve information, obtain the latest scientific and technological information using modern information technology; to be able to learn and explore independently according to practical requirements during work; to actively adapt to the developing requirements of new theories, new techniques and new technologies of Energy and Power Engineering.
② Engineering Practice:to obtain general methods and abilities of scientific research; to be able to use computer for computer aided design, numerical calculation and analysis; to have the ability to carry out design, operation control, fault diagnosis, reliability analysis and technical-economic analysis of energy power systems and equipments.
③ Innovation and Entrepreneurship:To understand the development status and trend of Energy and Power Engineering; to have strong innovation consciousness and entrepreneurial vision; to have the ability to carry out development and design of new processes and products, and technical transformation and innovation; to cultivate students' entrepreneurship.
④ Organization and Management:to have Good organization, leadership and management skills in company operation, engineering project management, technical design and consulting.
⑤ Communication and Collaboration:to have good skills in communication, interpersonal skills and teamwork; to have the skills in communication, competition and cooperation with international vision and interdisciplinary experts.
3. Quality Requirements
① Humanistic and Spiritual Quality:to have correct world outlook, outlook on life and value theory; to have good ideological and moral cultivation, humanistic-social science accomplishment and strong sense of social responsibility.
② Scientific and Cultural Literacy:to have the scientific spirit of pursuing truth and innovations, to have the cultural literacy of endless learning.
③ Professional Quality:to be rigorous, realistic, cooperative and responsible; to have the idea of global vision, sustainable development and good professional ethics and academic ethics.
④ Physical and Mental Literacy:to have good psychological quality, strong physique, healthy living habits and inclusive mind.
PART FOUR Core Professional Courses
Core Professional Courses include: Engineering Thermodynamics, Heat Transfer, Fluid Mechanics, Electrical and Electronic Technology, Theoretical Mechanics, Mechanics of Materials, Engineering Combustion, Test & Measurement Technology of Thermal Energy and Power Engineering, Principles and Equipments of Refrigeration, etc.
PART FIVE Main Practical Training (Including Laboratorial Tests)
Laboratorial tests mainly includes: test of heat transfer, test of thermodynamics, test of fluid mechanics, test of control theory, Testing Technology and other tests related to professional courses.
Practical training mainly includes: Engineering Training(metalworking practice, electrical engineering practice), Energy-saving and emission reduction innovation training, Cognition Practice、production practice, curriculum design and graduation project, etc.
PART SIX Credits for Graduation 160 Credits
PART SEVEN Standard Duration for Graduation 4 Years
Maximum Duration for Graduation 6 Years
PART EIGHT Qualification Awarded BE, Bachelor of Engineering
PART NINT GROUP COURSES & CREDIT PROPORTIONS
Type |
Groups |
Credit |
Credit Hours |
Percentage |
Compulsory |
Compulsory General Education Courses |
EnergyABC 137 EnergyDE 136 |
32 |
Energy A2128 B2130 C2153 D2113 E2113 + 31weeks |
816 |
EnergyABC 85.625% EnergyDE 85% |
20% |
Compulsory Disciplinary Platform Courses |
37 |
640 |
23.125% |
Compulsory Professional Courses |
Theoretical Lecture |
Energy A 36 Energy B 35.875 Energy C 36.4375 Energy D 34.9375 EnergyE 34.9375 |
Energy A 576 Energy B 574 Energy C 583 Energy D 559 EnergyE 559 |
EnergyA22.500% B22.422% C22.773% D21.836% E21.836% |
Laboratory Teaching |
In-class Experiment |
Energy A 2 Energy B 2.125 Energy C 1.5625 Energy D 2.0625 Energy E 2.0625 |
Energy A 64 Energy B 68 Energy C 50 Energy D 66 Energy E 66 |
EnergyA1.25% B1.328% C0.977% D1.289% E1.289% |
Independent Experiment |
EnergyC 1 |
Energy C32 |
0.625% |
Practical Training |
In-class Practice |
- |
- |
-% |
Independent Training |
30 |
31Weeks+32 |
18.75% |
Selective |
Core General Education Courses |
EnergyABC 23 EnergyDE 24 |
10+4 |
EnergyABC 368 +64 EnergyDE 384 +64 |
160+64 |
EnergyABC 14.375% EnergyDE 15% |
6.25% |
Selective General Education Courses |
2 |
32 |
1.25% |
Selective Professional Courses |
Energy ABC 11 EnergyDE 12 |
EnergyABC 176 EnergyDE 192 |
EnergyABC 6.875% EnergyDE 7.5% |
Requirements for Graduation |
160+4 |
Energy A 2496+31weeks Energy B 2498+31 weeks Energy C 2521+31 weeks Energy D 2497+31 weeks Energy E 2497+31 weeks |
100% |
Notes:The 14 credits of Core General Education Courses include to 4 credits for Innovation and Entrepreneurship Education, which is compulsory.
PART TEN PROFESSIONAL CURRICULA AND CRDIT DISTRITION
Course type |
Course No. |
Course Title |
|
Course Hours |
Course Hour Distribution |
Assessment methods |
Semester |
Comments |
Lecture |
laboratory teaching |
Practical Training |
Compulsory General Education Courses |
|
Mao Zedong Thought and Introduction to Theoretical System of Socialism with Chinese Characteristics |
6 |
96 |
64 |
32 |
|
Exam |
4 |
|
sd02810380 |
Ideological and Moral Cultivation & Legal Basis |
3 |
48 |
48 |
|
|
Exam |
2 |
|
sd02810350 |
Basic Principle of Marxism |
3 |
48 |
48 |
|
|
Exam |
3 |
|
sd02810370 |
Outline of China's Modern History |
2 |
32 |
32 |
|
|
Exam |
1 |
|
sd02810390 |
Contemporary World Economy and Politics |
2 |
32 |
32 |
|
|
Exam |
1-4 |
Selective |
00070 |
College English |
8 |
240 |
128 |
|
|
Exam |
1-2 |
extra 112 hours |
sd02910630 |
Physical Education(1) |
1 |
32 |
32 |
|
|
Exam |
1 |
|
sd02910640 |
Physical Education(2) |
1 |
32 |
32 |
|
|
Exam |
2 |
|
sd02910650 |
Physical Education(3) |
1 |
32 |
32 |
|
|
Exam |
3 |
|
sd02910660 |
Physical Education(4) |
1 |
32 |
32 |
|
|
Exam |
4 |
|
sd01310010 |
Computational Cultivation |
2 |
32 |
32 |
|
|
Exam |
1-2 |
|
sd06910010 |
Military Theory |
2 |
32 |
32 |
|
|
Exam |
1-2 |
|
sd09010010 |
Situation and Policy(1) |
0 |
16 |
16 |
|
|
Flexible |
1 |
|
sd09010020 |
Situation and Policy(2) |
0.5 |
16 |
16 |
|
|
Flexible |
2 |
|
sd09010030 |
Situation and Policy(3) |
0 |
16 |
16 |
|
|
Flexible |
3 |
|
sd09010040 |
Situation and Policy(4) |
0.5 |
16 |
16 |
|
|
Flexible |
4 |
|
sd09010050 |
Situation and Policy(5) |
0 |
16 |
16 |
|
|
Flexible |
5 |
|
sd09010060 |
Situation and Policy(6) |
0.5 |
16 |
16 |
|
|
Flexible |
6 |
|
sd09010070 |
Situation and Policy(7) |
0 |
16 |
16 |
|
|
Flexible |
7 |
|
sd09010080 |
Situation and Policy(8) |
0.5 |
16 |
16 |
|
|
Flexible |
8 |
|
Sub-total |
32 |
816 |
784 |
32 |
|
|
|
extra 112 hours |
Core General Education Courses |
00051 |
Traditional Chinese culture group |
2 |
32 |
32 |
|
|
Exam |
1-6 |
any 2 credits |
00052 |
Innovation and Entrepreneurship |
2 |
32 |
32 |
|
|
Exam |
1-6 |
any 2 credits |
00053 |
Art Aesthetic |
2 |
32 |
32 |
|
|
Exam |
1-6 |
any 2 credits |
00054(00056) |
Humanities group(Science Group) |
2 |
32 |
32 |
|
|
Exam |
1-6 |
any 2 credits |
00055(00057) |
Social sciences group(Engineering) |
2 |
32 |
32 |
|
|
Exam |
1-6 |
any 2 credits |
00058 |
Jixia Innovative Lecture |
2 |
32 |
32 |
|
|
Flexible |
1-6 |
honor credits |
00059 |
Qilu Entrepreneurship Lecture |
2 |
32 |
32 |
|
|
Flexible |
1-6 |
honor credits |
Sub-total |
10+4 |
224 |
224 |
|
|
|
|
|
Selective General Education Courses |
00090 |
Selective General Education Courses |
2 |
32 |
32 |
|
|
Flexible |
1-8 |
any 2 credits |
Sub-total |
2 |
32 |
32 |
|
|
|
|
|
Basic Disciplinary Platform Courses |
sd00920120/ sd00920130 |
Advanced Mathematics |
10 |
160 |
160 |
|
|
Exam |
1.2 |
|
sd00920060 |
Linear Algebra |
2 |
32 |
32 |
|
|
Exam |
3 |
|
sd00920010 |
Probability and Mathematical Statistics |
2 |
32 |
32 |
|
|
Exam |
4 |
|
sd00920040 |
Complex Function and Integral Transformingrn |
2 |
32 |
32 |
|
|
Exam |
4 |
|
New |
College Chemistry II |
3 |
64 |
32 |
32 |
|
Exam |
1 |
|
Sd01920180/ Sd01920020 |
Electrical and Electronic Technology(1)(2) |
6 |
109 |
83 |
26 |
|
Exam |
3、4 |
|
sd01020140 |
College Physics |
4 |
64 |
64 |
|
|
Exam |
2 |
|
sd01020030 |
College Physics Experiment I |
1 |
32 |
|
32 |
|
Exam |
3 |
|
sd02021410 |
Theoretical Mechanics |
3 |
48 |
48 |
|
|
Exam |
2 |
|
sd02020060 |
Mechanics of Materials |
4 |
67 |
61 |
6 |
|
Exam |
3 |
|
Sub-total |
37 |
640 |
544 |
96 |
|
|
|
|
Professional Education Courses |
Compulsory Professional Courses |
New |
Freshman Seminar |
2 |
32 |
32 |
|
|
|
1 |
|
sd01620780 |
Machine Drawing I |
4 |
64 |
64 |
|
|
Exam |
2 |
|
sd01620700 |
Basis of Mechanical Design I |
4 |
72 |
64 |
8 |
|
Exam |
5 |
|
sd01520610 |
Engineering Materials and Foundation of Mechanical Manufacturing (Metal Technology) |
3 |
53 |
43 |
10 |
|
Exam |
2 |
|
sd01821050 sd01821030 |
Thermal Engineering II(Eng. Thermodynamics+ Heat Transfer) |
7 |
116 |
108 |
8 |
|
Exam |
3、5 |
|
sd01820540 |
Fluid Mechanics II |
3.5 |
59 |
53 |
6 |
|
Exam |
4 |
|
sd01830240 |
Engineering Combustion I |
2 |
34 |
30 |
4 |
|
Exam |
5 |
EnergyA/B/D/E |
sd01831750 |
Test & Measurement Technology of Thermal Energy and Power Engineering |
2.5 |
44 |
36 |
8 |
|
Exam |
6 |
EnergyA/B/D/E |
sd01831110 |
Principles of Automatic Control for thermal Engineering(2) |
2 |
34 |
30 |
4 |
|
Exam |
5 |
EnergyB |
sd01830250 |
Engineering Combustion II |
2 |
32 |
32 |
|
|
Exam |
5 |
EnergyC |
sd01831170 |
Test & Measurement Technology of Thermal Energy and Power Engineering II |
2 |
35 |
29 |
6 |
|
Exam |
6 |
EnergyC |
sd01831100 |
Principles of Automatic Control for thermal Engineering (1) |
2 |
36 |
28 |
8 |
|
Exam |
5 |
EnergyA/C/D/E |
Sub-total |
EnergyABDE30 EnergyC29.5 |
EnergyADE 510 B508 C499 |
EnergyADE458 B460 C453 |
EnergyADE 52 B48 C46 |
|
|
|
|
EnergyA |
sd01831630 |
Pumps and fansI |
2 |
34 |
30 |
4 |
|
Exam |
5 |
EnergyA |
sd01830320 |
Principles of BoilerI |
3 |
51 |
45 |
6 |
|
Exam |
6 |
EnergyA |
sd01830930 |
Principles of Steam Turbine |
3 |
49 |
47 |
2 |
|
Exam |
6 |
EnergyA |
sd01831120 |
Thermal Power Plant |
2 |
32 |
32 |
|
|
Exam |
7 |
EnergyA |
Sub-total |
10 |
166 |
154 |
12 |
|
|
|
|
EnergyB |
Sd01830300 |
Power Plant Boiler & Turbine |
3 |
51 |
45 |
6 |
|
Exam |
5 |
EnergyB |
Sd01831090 |
Automatic Control System of Thermal Engineering |
3 |
53 |
43 |
10 |
|
Exam |
6 |
EnergyB |
Sd01831760 |
Computer control system in power plants |
2 |
34 |
30 |
4 |
|
Exam |
6 |
EnergyB |
Sd01830100 |
The Unit Operation Theory of Power Plant |
2 |
32 |
32 |
|
|
Exam |
7 |
EnergyB |
Sun-total |
10 |
170 |
150 |
20 |
|
|
|
|
EnergyC |
sd01830180 |
Structure of ICE |
2.5 |
42 |
38 |
4 |
|
Exam |
5 |
EnergyC |
sd01830900 |
ICE manufacturing Technology |
2 |
32 |
32 |
|
|
Exam |
6 |
EnergyC |
sd01830640 |
Principles of ICE |
3 |
48 |
48 |
|
|
Exam |
6 |
EnergyC |
sd01831690 |
ICE Design |
3 |
48 |
48 |
|
|
Exam |
7 |
EnergyC |
|
10.5 |
170 |
166 |
4 |
|
|
|
|
EnergyD |
Sd01831740 |
Principles of Steam TurbineⅠ |
2 |
34 |
30 |
4 |
|
Exam |
5 |
EnergyD |
Sd01831130 |
Thermal Power System |
2 |
33 |
31 |
2 |
|
Exam |
6 |
EnergyD |
Sd01830330 |
Principles of BoilerⅡ |
3 |
51 |
45 |
6 |
|
Exam |
6 |
EnergyD |
Sd01830270 |
Heat Supply Engineering |
2 |
33 |
31 |
2 |
|
Exam |
7 |
EnergyD |
|
9 |
151 |
137 |
14 |
|
|
|
|
EnergyE |
Sd01831470 |
Principles and Equipments of Refrigeration |
3 |
50 |
46 |
4 |
|
Exam |
6 |
EnergyE |
Sd01830520 |
Cold Store Technology |
2 |
34 |
30 |
4 |
|
Exam |
6 |
EnergyE |
Sd01830510 |
Air Conditioning |
2 |
34 |
30 |
4 |
|
Exam |
7 |
EnergyE |
Sd01830270 |
Heat Supply Engineering |
2 |
33 |
31 |
2 |
|
Exam |
7 |
EnergyE |
Sub-total |
9 |
151 |
137 |
14 |
|
|
|
|
Selective Professional Courses |
Energy A |
Sd01830380 |
Nuclear Power Technology |
2 |
32 |
32 |
|
|
Flexible |
5 |
EnergyA |
New |
Pollution Control of Coal Combustion |
1 |
16 |
16 |
|
|
Flexible |
5 |
EnergyA |
Sd01830690 |
Energy Management Engineering |
2 |
32 |
32 |
|
|
Flexible |
5 |
EnergyA |
Sd01831210 |
Bioenergy technology |
2 |
32 |
32 |
|
|
Flexible |
5 |
EnergyA |
Sd01830010 |
CO2 mitigation and control |
2 |
32 |
32 |
|
|
Flexible |
5 |
EnergyA |
Sd01830490 |
Purified Coal Technology |
2 |
32 |
32 |
|
|
Flexible |
5 |
EnergyA |
Sd01830050 |
Water treatment of Supercritical Unit |
1 |
16 |
16 |
|
|
Flexible |
6 |
EnergyA |
Sd01831240 |
Solar Power Technology |
2 |
32 |
32 |
|
|
Flexible |
6 |
EnergyA |
Sd01831000 |
Gas-steam Combined Cycle Technology |
2 |
32 |
32 |
|
|
Flexible |
6 |
EnergyA |
Sd01831560 |
Power Plant Automation Technology |
2 |
32 |
32 |
|
|
Flexible |
6 |
EnergyA |
New |
Solid Waste Recycling Technology (English) |
2 |
32 |
32 |
|
|
Flexible |
6 |
EnergyA |
Sd01831140 |
Thermal system and equipment energy saving technology |
2 |
32 |
32 |
|
|
Flexible |
7 |
EnergyA |
Sd01831560 |
Professional English |
2 |
32 |
32 |
|
|
Flexible |
6 |
EnergyA |
Sd01831370 |
Principle of Circulating Fluidized Bed Boiler |
2 |
34 |
30 |
4 |
|
Flexible |
6 |
EnergyA |
Sd01831760 |
Power plant computer control |
2 |
34 |
30 |
4 |
|
Flexible |
6 |
EnergyA |
Sd01831450 |
Introduction to refrigeration and artificial environment engineering |
2 |
34 |
30 |
4 |
|
Flexible |
6 |
EnergyA |
Sd01830160 |
Operation and combustion adjustment of power station |
2 |
32 |
32 |
|
|
Flexible |
7 |
EnergyA |
Sd01830140 |
Power plant thermal automatic control technology |
2 |
34 |
30 |
4 |
|
Flexible |
7 |
EnergyA |
Sd01830100 |
Centralized control operation of unit |
2 |
32 |
32 |
|
|
Flexible |
7 |
EnergyA |
New |
Serial Seminarss of Energy and Power Technology |
1 |
16 |
16 |
|
|
Flexible |
7 |
EnergyA |
New |
Air cooling water saving and energy saving of power station |
1 |
16 |
16 |
|
|
Flexible |
7 |
EnergyA |
New |
Wind energy utilization technology |
2 |
32 |
32 |
|
|
Flexible |
7 |
EnergyA |
Sub-total |
11/26 |
640 |
624 |
16 |
|
|
|
|
Energy B |
Sd01830380 |
Nuclear Power Technology |
2 |
32 |
32 |
|
|
Flexible |
5 |
EnergyB |
New |
Pollution Control of Coal Combustion |
1 |
16 |
16 |
|
|
Flexible |
5 |
EnergyB |
sd01831580 |
Pumps and fans |
2 |
34 |
30 |
4 |
|
Flexible |
5 |
EnergyB |
Sd01831210 |
Bioenergy technology |
2 |
32 |
32 |
|
|
Flexible |
5 |
EnergyB |
Sd01830010 |
CO2 mitigation and control |
2 |
32 |
32 |
|
|
Flexible |
5 |
EnergyB |
Sd01830490 |
Purified Coal Technology |
2 |
32 |
32 |
|
|
Flexible |
5 |
EnergyB |
Sd01830050 |
Water treatment of Supercritical Unit |
1 |
16 |
16 |
|
|
Flexible |
6 |
EnergyB |
Sd01831240 |
Solar Power Technology |
2 |
32 |
32 |
|
|
Flexible |
6 |
EnergyB |
Sd01831000 |
Gas-steam Combined Cycle Technology |
2 |
32 |
32 |
|
|
Flexible |
6 |
EnergyB |
Sd01831560 |
Power Plant Automation Technology |
2 |
32 |
32 |
|
|
Flexible |
6 |
EnergyB |
New |
Solid Waste Recycling Technology (English) |
2 |
32 |
32 |
|
|
Flexible |
6 |
EnergyB |
Sd01831370 |
Principles of Circulating Fluidized Bed Boiler |
2 |
34 |
30 |
4 |
|
Flexible |
6 |
EnergyB |
Sd01831010 |
Thermal Protection and Sequence Control |
2 |
34 |
30 |
4 |
|
Flexible |
6 |
EnergyB |
Sd01831140 |
Theory of Energy Conservation of the Thermal System and Installations |
2 |
32 |
32 |
|
|
Flexible |
6 |
EnergyB |
Sd01831560 |
Professional English |
2 |
32 |
32 |
|
|
Flexible |
6 |
EnergyB |
Sd01831450 |
Introduction to Refrigeration and Artificial Environment Engineering |
2 |
34 |
30 |
4 |
|
Flexible |
6 |
EnergyB |
sd01831120 |
Thermal Power Plant |
2 |
32 |
32 |
|
|
Flexible |
7 |
EnergyB |
Sd01830160 |
Operation and Combustion Adjustment of Power Station Boiler |
2 |
32 |
32 |
|
|
Flexible |
7 |
EnergyB |
New |
Serial Seminarss of Energy and Power Technology |
2 |
32 |
32 |
|
|
Flexible |
7 |
EnergyB |
Sd01831660 |
Environmental chemistry |
2 |
32 |
32 |
|
|
Flexible |
7 |
EnergyB |
New |
The principle and Equipment of Air Cooling Technology in Power Stations |
1 |
16 |
16 |
|
|
Flexible |
7 |
EnergyB |
New |
Wind energy utilization technology |
2 |
32 |
32 |
|
|
Flexible |
7 |
EnergyB |
Sun-total |
11/26 |
640 |
624 |
16 |
|
|
|
|
Energy C |
sd01831560 |
Professional English |
2 |
32 |
32 |
|
|
Flexible |
6 |
EnergyC |
sd01830820 |
Automobile Construction |
2 |
34 |
30 |
4 |
|
Flexible |
6 |
EnergyC |
sd01830190 |
New Analysis Technology of ICE |
2 |
48 |
16 |
32 |
|
Flexible |
6 |
EnergyC |
sd01830630 |
Simulation of ICE |
2 |
48 |
16 |
32 |
|
Flexible |
6 |
EnergyC |
sd01830090 |
Principles and Applications of Single-chip Microcomputer |
2 |
34 |
30 |
4 |
|
Flexible |
6 |
EnergyC |
sd01830060 |
Electronic Management System of Automobile Engines |
2 |
36 |
28 |
8 |
|
Flexible |
7 |
EnergyC |
sd01830840 |
Automobile Theory |
2 |
32 |
32 |
|
|
Flexible |
7 |
EnergyC |
sd01831330 |
New energy Automotive Technology |
2 |
34 |
30 |
4 |
|
Flexible |
7 |
EnergyC |
sd01830580 |
CAE Technology of ICE |
2 |
48 |
16 |
32 |
|
Flexible |
7 |
EnergyC |
sd01830660 |
ICE Vibration and Noise Control |
2 |
32 |
32 |
|
|
Flexible |
7 |
EnergyC |
sd01830860 |
Automobile Emission and Control Technology |
2 |
34 |
30 |
4 |
|
Flexible |
7 |
EnergyC |
sd01830590 |
CFD Technology of ICE |
2 |
48 |
16 |
32 |
|
Flexible |
7 |
EnergyC |
sd01831570 |
Comprehensive Experiment |
1 |
32 |
|
32 |
|
Flexible |
7 |
EnergyC |
sd01830650 |
Turbocharging techniques of ICE |
2 |
32 |
32 |
|
|
Flexible |
7 |
EnergyC |
sd01830610 |
New Technique of ICE |
1 |
16 |
16 |
|
|
Flexible |
7 |
EnergyC |
Sun-total |
11/28 |
540 |
356 |
184 |
|
|
|
|
Energy D |
sd01831580 |
Pumps and fans |
2 |
34 |
30 |
4 |
|
Exam |
5 |
EnergyD |
Sd01830690 |
Energy Management Engineering |
2 |
32 |
32 |
|
|
Flexible |
5 |
EnergyD |
Sd01830380 |
Nuclear Power Technology |
2 |
32 |
32 |
|
|
Flexible |
5 |
EnergyD |
Sd01831210 |
Bioenergy technology |
2 |
32 |
32 |
|
|
Flexible |
5 |
EnergyD |
Sd01830490 |
Purified Coal Technology |
2 |
32 |
32 |
|
|
Flexible |
5 |
EnergyD |
Sd01831260 |
Solar energy utilization technology |
2 |
34 |
30 |
4 |
|
Flexible |
6 |
EnergyD |
Sd01831000 |
Gas-steam Combined Cycle Technology |
2 |
32 |
32 |
|
|
Flexible |
6 |
EnergyD |
New |
Solid Waste Recycling Technology (English) |
2 |
32 |
32 |
|
|
Flexible |
6 |
EnergyD |
Sd01830431 |
Principles and Design of Heat Exchanger(Bilingual) |
2 |
34 |
30 |
4 |
|
Flexible |
6 |
EnergyD |
Sd01831450 |
Introduction to Refrigeration and Artificial Environment Engineering |
2 |
34 |
30 |
4 |
|
Flexible |
6 |
EnergyD |
Sd01831460 |
Principles and Equipments of Refrigeration |
2 |
34 |
30 |
4 |
|
Flexible |
6 |
EnergyD |
Sd01831560 |
Professional English |
2 |
32 |
32 |
|
|
Flexible |
6 |
EnergyD |
Sd01831140 |
Theory of Energy Conservation of the Thermal System and Installations |
2 |
32 |
32 |
|
|
Flexible |
6 |
EnergyD |
Sd01831370 |
Principles of Circulating Fluidized Bed Boiler |
2 |
34 |
30 |
4 |
|
Flexible |
6 |
EnergyD |
New |
Distributed Combined Cooling Heating and Power |
2 |
34 |
30 |
4 |
|
Flexible |
7 |
EnergyD |
Sd01830671 |
Emission and control of pollutants in energy industry |
2 |
32 |
32 |
|
|
Flexible |
7 |
EnergyD |
Sd01830960 |
Principles and Applications of Fuel Cells |
2 |
34 |
30 |
4 |
|
Flexible |
7 |
EnergyD |
New |
Serial Seminars of Energy and Environment System Engineering |
2 |
32 |
32 |
|
|
Flexible |
7 |
EnergyD |
Sd01830400 |
Introduction to Environmental Engineering |
2 |
32 |
32 |
|
|
Flexible |
7 |
EnergyD |
New |
Wind energy utilization technology |
2 |
32 |
32 |
|
|
Flexible |
7 |
EnergyD |
Sun-total |
12/40 |
640 |
600 |
40 |
|
|
|
|
Energy E |
sd01831580 |
Pumps and fans |
2 |
34 |
30 |
4 |
|
Exam |
5 |
EnergyE |
Sd01830380 |
Nuclear Power Technology |
2 |
32 |
|
|
|
Flexible |
|
EnergyE |
Sd01831210 |
Bioenergy technology |
2 |
32 |
|
|
|
Flexible |
|
EnergyE |
sd01831260 |
Solar energy utilization technology |
2 |
30 |
4 |
|
|
Flexible |
|
EnergyE |
Sd01831140 |
Theory of Energy Conservation of the Thermal System and Installations |
2 |
32 |
32 |
|
|
Flexible |
6 |
EnergyE |
Sd01831640 |
Low temperature principle and technology |
2 |
34 |
30 |
4 |
|
Flexible |
6 |
EnergyE |
Sd01830431 |
Principles and Design of Heat Exchanger(Bilingual) |
2 |
32 |
32 |
|
|
Flexible |
6 |
EnergyE |
Sd01831560 |
Professional English |
2 |
32 |
32 |
|
|
Flexible |
6 |
EnergyE |
Sd01831410 |
Principles of Refrigeration Compressor |
2 |
34 |
30 |
4 |
|
Flexible |
6 |
EnergyE |
Sd01831450 |
Introduction to Refrigeration and Artificial Environment Engineering |
2 |
34 |
30 |
4 |
|
Flexible |
6 |
EnergyE |
New |
Distributed Combined Cooling Heating and Power |
2 |
34 |
30 |
4 |
|
Flexible |
7 |
EnergyE |
Sd01831480 |
Automation of Refrigeration Equipment |
2 |
32 |
32 |
|
|
Flexible |
7 |
EnergyE |
Sd01830400 |
Introduction to Environmental Engineering |
2 |
32 |
32 |
|
|
Flexible |
7 |
EnergyE |
New |
Absorption/Adsorption Refrigeration and Heat Pump Technology |
2 |
34 |
30 |
4 |
|
Flexible |
7 |
EnergyE |
Sd01830960 |
Principles and Applications of Fuel Cells |
2 |
34 |
30 |
4 |
|
Flexible |
7 |
EnergyE |
New |
Serial Seminars of Energy and Environment System Engineering |
2 |
32 |
32 |
|
|
Flexible |
7 |
EnergyE |
New |
Wind energy utilization technology |
2 |
32 |
32 |
|
|
Flexible |
7 |
EnergyE |
Sun-total |
12/34 |
560 |
528 |
32 |
|
|
|
|
Comprehensive Practice |
sd06910020 |
Military Training |
0 |
3Weeks |
|
|
|
|
|
|
sd07030280 |
Engineering Training |
3 |
3Weeks |
|
|
|
Flexible |
3 |
|
sd01831680 |
Energy-saving and emission reduction innovation training |
2 |
2Weeks |
|
|
|
Flexible |
4 |
|
sd07030300 |
Engineering Training (Electronics) |
1 |
1Week |
|
|
|
Flexible |
4 |
|
sd01630710 |
The Mechanical Design Foundation Course Design |
2 |
2Weeks |
|
|
|
Flexible |
5 |
|
sd01821790 |
Cognition Practice |
2 |
2Weeks |
|
|
|
Flexible |
6 |
|
sd01821800 |
Production Practice |
2 |
2Weeks |
|
|
|
Flexible |
6 |
|
sd01821810 |
Graduation Project(including Graduate Practice ) |
14 |
14Weeks |
|
|
|
Flexible |
7-8 |
Extra 2 weeks in 7th semester |
sd01821820 |
Specialty Course Design |
2 |
2Weeks |
|
|
|
Flexible |
8 |
|
Sun-total |
28 |
31Weeks |
|
|
|
|
|
|
Sum up |
160 |
|
|
|
|
|
|
|
PART ELEVEN MAIN COURSES AND RELATED COMPETENCIES AND ATTRIBUTES
Course Title |
COMPETENCY |
ATTRIBUTE |
Independent Study |
Engineering Practice |
Innovation & Entrepreneurship |
Organizing and Management |
Communication and Collaboration |
Humanistic and Spiritual Qualities |
Scientific and Cultural Literacy |
Professional Quality |
Physical and Mental Literacy |
Mao Zedong Thought and Introduction to Theoretical System of Socialism with Chinese Characteristics |
√ |
|
√ |
√ |
√ |
√ |
√ |
√ |
√ |
Ideological and Moral Cultivation & Legal Basis |
√ |
|
|
√ |
√ |
√ |
√ |
√ |
√ |
Basic Principle of Marxism |
√ |
|
√ |
√ |
√ |
√ |
√ |
√ |
√ |
Outline of China's Modern History |
√ |
|
|
√ |
√ |
√ |
√ |
√ |
√ |
Contemporary World Economy and Politics |
√ |
|
|
√ |
√ |
√ |
√ |
|
|
College English Group |
√ |
|
|
|
√ |
√ |
√ |
|
|
Physical Education(1-4) |
|
|
|
√ |
√ |
√ |
|
|
√ |
Computational Cultivation |
√ |
√ |
√ |
|
|
|
√ |
√ |
|
Military Theory |
|
|
|
√ |
√ |
√ |
|
√ |
√ |
Situation and Policy(1-8) |
|
|
√ |
√ |
√ |
√ |
|
|
√ |
Advanced Mathematics |
√ |
√ |
|
|
|
|
√ |
|
|
Linear Algebra |
√ |
√ |
|
|
|
|
√ |
|
|
Probability and Mathematical Statistics |
√ |
√ |
|
|
|
|
√ |
|
|
Complex Function and Integral Transformingrn |
√ |
√ |
|
|
|
|
√ |
|
|
College Chemistry II |
√ |
√ |
|
|
|
|
√ |
|
|
Electrical and Electronic Technology(1)(2) |
√ |
√ |
√ |
|
√ |
|
√ |
√ |
|
College Physics |
√ |
√ |
|
|
|
|
√ |
|
|
College Physics Experiment I |
√ |
√ |
√ |
|
√ |
|
√ |
√ |
|
Theoretical Mechanics |
√ |
√ |
√ |
|
|
|
√ |
√ |
|
Mechanics of Materials |
√ |
√ |
√ |
|
|
|
√ |
√ |
|
Freshman Seminar |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
Engineering Design I |
√ |
√ |
√ |
|
|
|
√ |
√ |
|
Fundamentals of Mechanical Design I |
√ |
√ |
√ |
|
|
|
√ |
√ |
|
Metallurgical Technology |
√ |
√ |
√ |
|
|
|
√ |
√ |
|
Thermal Engineering II(Eng. Thermodynamics+ Heat Transfer) |
√ |
√ |
√ |
|
|
|
√ |
√ |
|
Fluid Mechanics II |
√ |
√ |
√ |
|
|
|
√ |
√ |
|
Engineering Combustion I(II) |
√ |
√ |
√ |
|
|
|
√ |
√ |
|
Test & Measurement Technology of Thermal Energy and Power Engineering I(II) |
√ |
√ |
√ |
|
|
|
√ |
√ |
|
Principles of Automatic Control for thermal Engineering(1)(2) |
√ |
√ |
√ |
|
|
|
√ |
√ |
|
Pumps and fansI |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Principles of BoilerI |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Principles of Steam Turbine |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Thermal Power Plant |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Power Plant Boiler & Turbine |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Automatic Control System of Thermal Engineering |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Computer Control System in Power Plants |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
The Unit Operation Theory of Power Plant |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Structure of ICE |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
ICE manufacturing Technology |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Principles of ICE |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
ICE Design |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Principles of Steam TurbineⅠ |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Thermal Power System |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Principles of BoilerⅡ |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Heat Supply Engineering |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Principles and Equipments of Refrigeration |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Cold Store Technology |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Air Conditioning |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Heat Supply Engineering |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Nuclear Power Technology |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
New Energy Technology |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Pollution Control of Coal Combustion |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Energy Management Engineering |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
Theory of Energy Conservation of the Thermal System and Installations |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
√ |
Professional English |
√ |
√ |
|
|
√ |
√ |
√ |
√ |
|
Principles of Circulating Fluidized Bed Boiler |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Computer Control System in Power Plants |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Introduction to Refrigeration and Artificial Environment Engineering |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Operation and Combustion Adjustment of Power Station Boiler |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Power Plant Automation Technology |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
The Unit Operation Theory of Power Plant |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Serial Seminarss of Energy and Power Technology |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
The principle and Equipment of Air Cooling Technology in Power Stations |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Environmental chemistry |
√ |
√ |
√ |
|
|
|
√ |
√ |
|
Automobile Construction |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
New Analysis Technology of ICE |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Simulation of ICE |
√ |
|
√ |
√ |
√ |
|
√ |
√ |
|
Principles and Applications of Single-chip Microcomputer |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Electronic Management System of Automobile Engines |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Automobile Theory |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
New energy Automotive Technology |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
CAE Technology of ICE |
√ |
|
√ |
√ |
√ |
|
√ |
√ |
|
ICE Vibration and Noise Control |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Automobile Emission and Control Technology |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
CFD Technology of ICE |
√ |
|
√ |
√ |
√ |
|
√ |
√ |
|
Comprehensive Experiment |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
√ |
Turbocharging techniques of ICE |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
New Technique of ICE |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
Principles and Design of Heat Exchanger(Bilingual) |
√ |
√ |
√ |
|
|
|
√ |
√ |
|
Distributed Combined Cooling Heating and Power |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Principles and Applications of Fuel Cells |
√ |
√ |
√ |
|
|
|
√ |
√ |
|
Serial Seminars of Energy and Environment System Engineering |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
Introduction to Environmental Engineering |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
|
Low temperature principle and technology |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Principles of Refrigeration Compressor |
√ |
√ |
√ |
√ |
|
|
√ |
√ |
|
Principles of Boiler |
√ |
√ |
√ |
√ |
|
|
√ |
√ |
|
Automation of Refrigeration Equipment |
√ |
√ |
√ |
√ |
|
|
√ |
√ |
|
Absorption/Adsorption Refrigeration and Heat Pump Technology |
√ |
√ |
√ |
√ |
√ |
|
√ |
√ |
|
Military Training |
|
|
|
√ |
√ |
√ |
|
|
√ |
Engineering Training(Mechanics) |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
Energy-saving and emission reduction innovation training |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
Engineering Training(Electronics) |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
The Mechanical Design Foundation Course Design |
√ |
√ |
√ |
|
√ |
|
√ |
√ |
|
Cognition Practice |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
Production Practice |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
√ |
Graduation Project(including Graduate Practice ) |
√ |
√ |
√ |
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Specialty Course Design |
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PART TWELVE COLLEGE ENGLISH SERIES AND CREDIT DISTRIBUTION
Group |
Category |
Course Code |
Course Title |
Credits |
Course hours |
Course Hour Distribution |
Semester |
Comments |
Lecture |
laboratory teaching |
College English Series |
00070 |
Sd03110010 |
College English Basics (1) |
4 |
120 |
64 |
|
1 |
Freshmen to be allocated to according to entrance Exam scores |
Sd03110020 |
College English Basics (2) |
4 |
120 |
64 |
|
2 |
Sd03110030 |
General College English (1) |
4 |
120 |
64 |
|
1 |
Sd03110040 |
General College English (2) |
4 |
120 |
64 |
|
2 |
Sd03110050 |
Academic English (1) |
4 |
120 |
64 |
|
1 |
Sd03110060 |
Academic English (2) |
4 |
120 |
64 |
|
2 |
Sub-total |
8 |
240 |
128 |
|
|
Self-study 112 hours |
