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新能源科学与工程专业人才培养方案
Undergraduate Program for New Energy Science and Engineering Major
学科门类 工学 代码 08
Discipline Type: 工学 Code: 08
专业类 能源动力类 代码 0805
Type: Energy and Power Code: 0805
专业名称 新能源科学与工程 代码 080503T
Title of the Major: New Energy Science and Engineering Code: 080503T
一、学制与学位 Length of Schooling and Degree
学制:四年 Duration:Four years
学位:工学学士 Degree:Bachelor of Engineering
二、培养目标 Educational Objectives
本专业培养基础扎实、知识面宽、能力强、素质高,具有较强实践能力和良好发展潜力的新能源领域高级专门人才。
风力发电方向的学生毕业后能够从事风电场的规划、设计、施工、运行与维护,风力发电机组设计与制造,风能资源测量与评估,风力发电新技术开发等风能与动力工程领域的技术与管理工作,并能从事新能源相关领域的专门技术工作。
生物质能方向的学生毕业后可在大型现代化电力及能源企业、新能源发电设备制造企业、能源与环保企业从事生产、经营和管理工作;或在各级政府部门及事业单位从事生物质能、电力、节能、环保等方面的规划、设计、建设、运营、咨询和监管等工作;也可在科研院所、大专院校从事生物质高效转化及清洁利用领域的科研、技术开发和教学等工作。
光伏发电方向的学生毕业后能胜任太阳电池设计与制造、光伏系统设计、光伏电站规划、设计、施工、运行与维护以及太阳能发电新技术开发等方面的技术与管理工作,并能从事其它相关领域的专门技术工作。
The graduates of wind energy & power engineering may find engineering or managerial positions in wind energy & power engineering (WEPE) for wind power plant planning, design, construction, operation and management, wind turbine generator system design and manufacturing, wind resources measurement and assessment, wind power new technology design, etc. They can also undertake the professional posts in other fields.
The students of this major are educated into professionals of new energy level with strong foundations, broad knowledge scopes, strong practical abilities, and great potentials.
The graduates of biomass energy can undertake production, operation and management works for Large-scale Modern Power and Energy Enterprise, Power Equipment Manufacturing Enterprise, and Energy Environmental Protection Enterprise, undertake planning, design, building, consultation and supervision works of biomass energy, power, energy conservancy and environment protection for institutions and government agencies at all levels, and undertake teaching, scientific research and technology development work.
The graduates of Photovoltaic Power Generation may find engineering or management positions in photovoltaic field for solar cell design and fabrication, photovoltaic system design, and photovoltaic power station design, construction, operation and management, solar power new technology exploitation, etc. They can also undertake the professional posts in other related fields.
三、专业培养基本要求 Skills Profile
1.具有扎实的自然科学基础,良好的政治理论基础,较好的人文、艺术、社会科学基础;
2.较系统地掌握本专业领域宽广的理论基础知识,本专业的生物质能方向主要包括工程热力学、工程流体力学、传热学、生物化学、工业微生物学等基础知识,光伏发电方向主要包括物理化学、固体物理、量子力学、无机化学、有机化学、无机非金属材料科学基础、电工技术基础、电子技术基础、控制工程等基础知识,风力发电方向主要包括工程力学、工程图学、空气动力学、机械设计、电工学、控制理论、管理学等基础知识;
3.具有本专业领域所必须的专业知识,生物质能方向包括生物质生物转化技术、生物质热化学转化技术、反应工程、锅炉原理、汽轮机原理等,光伏发电方向的太阳电池物理、太阳电池材料与器件、太阳电池材料测试分析、光伏系统的设计、光伏电站设计、运行与控制等,风力发电方向的风力发电原理、风电机组设计与制造、风电场电气部分、风电场运行与控制、风力发电项目开发等,了解本学科发展趋势;
4.本专业的生物质能方向还应具备理论力学、材料力学、工程图学、机械设计等方面的基础知识;光伏发电方向还应了解太阳能发电科学技术发展,具有较强的分析和解决工程实际问题的能力,有较强的计算机应用能力;风力发电方向还应熟悉国家关于风力发电工程建设和管理的方针、政策和法规,具有较强的计算机应用能力;
5.掌握一门外语,具有听、说、写、译的基础,能顺利阅读本专业外文书刊;
6.掌握文献检索、资料查询的基本方法,具有较强的自学能力、研究开发能力、创新意识、组织管理能力和较高的综合素质。
1.Solid foundations in natural science, basic knowledge on politics, literature, art and social science;
2.Systemic understanding of foundamental knowledge of this major, minor in biomass energy including Engineering Thermodynamics, Fluid Mechanics, Heat Transfer, Biochemistry and Industrial Microbiology; minor in Photovoltaic Power Generation including Physical Chemistry, Solid State Physics B, Quantum Mechanics, Inorganic Chemistry, Organic Chemistry, Inorganic Non-metallic Material Science Foundation, Fundamentals of Electro Techniques, Fundamentals of Electronics, Automation Engineering; minor in Wind Energy & Power Engineering including engineering mechanics, engineering drawing, airdynamics, mechanical design, Electrotechnics, control theory, management;.
3. Systemic understanding of the professional knowledge of New Energy Science and Engineering, minor in biomass energy including Biomass Biotransformation Technology,Biomass Thermochemical Transformation Technology, Reaction Engineering, Principles of Steam Boiler and Steam Turbine Principles; minor in Photovoltaic Power Generation including Physics of Solar Cells, Solar Cell Materials and devices, Analytical Method of Photovoltaic Materials, Design of Photovoltaic System, Design, Operation and Control of Photovoltaic Power Station, also familiar with the modern tendency knowledge in solar energy power generation; minor in Wind Energy & Power Engineering including including engineering mechanics, engineering drawing, airdynamics, mechanical design, Electrotechnics, control theory, management, etc.
4. Minor in biomass energy possesses the basic knowledge in Theoretical Mechanics, Mechanics of Materials, Engineering Graphics and Machine Design; minor in Photovoltaic Power Generation understanding of the trend and developing current stage of solar energy power generation technology, skills of experimenting in solar energy power generation research; Skills of analyzing and solving engineering problems; Excellent basic training in compute application; minor in solar energy power generation should familiar with the policies and codes concerning the construction and management of the wind power engineering in China and have strong ability of using computers.
5. Master a foreign language and could be listening, speaking, writing and translating, have the ability of reading foreign books and periodicals freely in solar energy power generation.
Basic skills for literature and information search, strong self-learning ability, innovation consciousness, ability of organizing and management, and high comprehensive diathesis.
四、学时与学分 Hours and Credits
类 别
Category
学 时
Hours
学 分
Credits
比 例
Percentage
合 计
理论
课程
Theory course
必修课
Required course
公共基础Public infrastructure
生物质能方向
1118
70.5
54.6%
100%
光伏发电方向
55.5%
风力发电方向
54.87%
学科专业基础Basis of Major
生物质能方向
616
38.5
30.2%
光伏发电方向
640
40
31.5%
风力发电方向
688
43
33.46%
专业Major course
生物质能方向
304
19
15.2%
光伏发电方向
264
16.5
13%
风力发电方向
240
15
11.67%
必修课小计Subtotal of required courses
生物质能方向
2038
128
84.9%
100%
光伏发电方向
2022
127
84.7%
风力发电方向
2046
128.5
84.82%
专业选修课Specialty elective course
生物质能方向
208
13
8.7%
光伏发电方向
8.7%
风力发电方向
8.58%
公共选修课Public electives course
生物质能方向
160
10
6.4%
光伏发电方向
6.6%
风力发电方向
6.6%
理论课程小计Subtotal of theory course
生物质能方向
2406
148.5
74.8%
100%
光伏发电方向
2390
150
75.8%
风力发电方向
2414
151.5
75.94%
单独开设的实践教学环节Separate Practical training
生物质能方向
47
23.7%
光伏发电方向
45
22.7%
风力发电方向
45
22.56%
课外能力素质学分Ability and quality of extra-curricular
3
1.5%
总 计Subtotal
生物质能方向
2406
198.5
光伏发电方向
2390
198
风力发电方向
2414
199.5
五、专业核心课程 Main Courses
生物质能方向:无机化学、有机化学、生物化学、工业微生物学、传热学、工程热力学、工程流体力学、工程制图、机械设计基础、电工技术基础、生物质生物转化技术、生物质热化学转化技术、反应工程、锅炉原理、汽轮机原理等。
Inorganic Chemistry, Organic Chemistry, Biochemistry, Industrial Microbiology, Heat Transfer, Engineering Thermodynamics, Fluid Mechanics, Engineering Graphics, Fundamentals of Machinery Design, Fundamentals of Electro Techniques, Biomass Biotransformation Technology,Biomass Thermochemical Transformation Technology, Reaction Engineering, Principles of Steam Boiler, Steam Turbine Principles, etc.
光伏发电方向:物理化学、固体物理B、量子力学、无机化学、有机化学、无机非金属材料科学基础、电工技术基础、电子技术基础、控制工程,太阳电池物理、太阳电池材料与器件,太阳电池材料测试分析,光伏电站设计、运行与控制等。
Physical Chemistry, Solid State Physics B, Quantum Mechanics, Inorganic Chemistry, Organic Chemistry, Inorganic Non-metallic Material Science Foundation, Fundamentals of Electro Techniques, Fundamentals of Electronics, Automation Engineering, Physics of Solar Cells, Solar Cell Materials and devices, Analytical Method of Photovoltaic Materials, Design, Operation and Control of Photovoltaic Power Station, etc.
风力发电方向:工程图学、理论力学、材料力学、风力机空气动力学、电路、电机学、电子技术基础、自动控制理论、金属工艺学、机械设计基础、机械制造技术基础、风力发电原理、风电机组设计与制造、风电机组检测与控制、风电场电气工程、风力发电场等。
Engineering Drawing, Theoretical Mechanics, Mechanics of Materials, Aerodynamics of Wind Turbine, Circuit Theory,Electrical Machinery, Fundamentals of Electronics,Automatic Control Theory , Metal Technology, Fundamentals of Machinery Design, Fundamentals of Machinery Manufacturing, Principle of Wind Power Generation, Design and Manufacturing of WTGS, Monitoring and Control of WTGS, Electrical Engineering in Wind Power Plant, Wind Power Plant, etc.
六、总周数分配 Arrangement of the Total Weeks
学期 Semester
教学环节 Teaching Program
一
二
三
四
五
六
七
八
合计
理论教学 Theoretic Teaching
生物质能方向
16
16
17
17
16
16
15
113
光伏发电方向
16
16
16
16
17
16
17
114
风力发电方向
16
16
17
16
17
16
12
110
复习考试 Review and Exam
1
2
2
2
2
2
2
13
集中进行的实践环节 Intensive Practical Training
生物质能方向
3
2
2
1
3
4
2
19
36
光伏发电方向
3
2
3
2
2
2
2
19
35
风力发电方向
3
2
2
2
2
2
7
19
39
小 计 Subtotal
20
20
21
20
21
20
21
19
162
寒 假 Winter Vacation
5
5
5
5
20
暑 假 Summer Vacation
6
6
6
18
合 计 Total
25
26
26
26
26
26
26
19
200
新能源科学与工程专业必修课教学进程
Table of Teaching Schedule for Required Course
类 别
课程编号
课 程 名 称
学 分
总学时
课内学时
实验学时
上机学时
课外学时
开课学期
公 共 基 础 教 育
00701351
思想道德修养与法律基础
Ideology and Moral Cultivation & Law Basis
3
48
32
16
2
00700972
中国近代史纲要
Chinese Modern and Contemporary History Outline
2
32
24
8
1
00700981
毛泽东思想和中国特色社会主义理论体系概论
Introduction of Mao Tse-Toung's Thoughts and Chinese Characteristic Socialism Theories System
6
96
64
32
3
00700971
马克思主义基本原理
Marxism Basic Principle
3
48
32
16
4
00701650
形势与政策
Current Affair and Policy
2
32
32
01000010
体育(1)
Physical Culture (1)
2
30
30
1
01000020
体育(2)
Physical Culture (2)
2
30
30
2
01000030
体育(3)
Physical Culture (3)
2
30
30
3
01000040
体育(4)
Physical Culture (4)
2
30
30
4
00900130
高等数学B(1)
Advanced Mathematics B(1)
5.5
90
90
1
00900140
高等数学B(2)
Advanced Mathematics B(2)
6
96
96
2
00900111
概率论与数理统计B
Probability and Mathematical Statistics B
3.5
56
56
4
00900050
大学物理(1) College Physics (1)
4
64
64
2
00900060
大学物理(2) College Physics (2)
2.5
40
40
3
00800050
大学英语1级
College English Band 1
4
60
60
1
00800070
大学英语2级
College English Band 2
4
64
64
2
00800080
大学英语3级
College English Band 13
4
64
64
3
00800090
大学英语4级
College English Band 4
4
64
64
4
00600750
信息技术基础
Fundamentals of Information Technology
2.5
40
40
20
1
00900462
线性代数 Linear Algebra
3
48
48
3
00600200
高级语言程序设计(C)Advanced Language Programming (C)
生物质能
3.5
56
56
26
1
光伏发电
3
风力发电
1
专 业 基 础 教 育 1(生物质能)
01501160
新能源科学与工程导论(生物质能)
Introduction to New Energy
0.5
8
8
1
00600230
工程制图
Engineering Graphics
3.0
48
48
1
01500450
无机化学
Inorganic Chemistry
3.0
48
48
1
01500460
有机化学
Organic Chemistry
3.0
48
48
2
00300621
机械设计基础B
Fundamentals of Machinery Design B
3.0
48
48
5
00300440
工程流体力学A
Fluid Mechanics A
4.5
72
72
6
3
00300460
工程热力学
Engineering Thermodynamics
4.5
72
72
6
3
01500500
生物化学
Biochemistry
3.0
48
48
4
00300431
工程力学 B
Engineering Mechanics B
3.0
48
48
4
4
00300160
传热学
Heat Transfer
4.5
72
72
6
4
01500580
工业微生物学
Industrial Microbiology
2.5
40
40
5
00200130
电工技术基础
Fundamentals of Electro Techniques
4.0
64
64
14
5
专 业 基 础 教 育 2(光伏发电)
01500450
无机化学
Inorganic Chemistry
3
48
48
1
01500460
有机化学
Organic Chemistry
3
48
48
2
00600230
工程制图 Engineering Graphics
3
48
48
1
00200130
电工技术基础 Fundamentals of Electro Techniques
4
64
64
14
4
00500160
电子技术基础 B Fundamentals of Electronics B
4
64
64
14
5
01501330
固体物理B
Solid State Physics B
4
64
64
5
01500480
物理化学A (1) Physical Chemistry
3
48
48
3
01500490
物理化学A (2) Physical Chemistry
3
48
48
4
00900240
量子力学
Quantum Mechanics
3
48
48
4
01501170
无机非金属材料科学基础Inorganic non-metallic material science foundation
4
64
64
5
01500850
控制工程
Automation Engineering
4
64
64
5
专 业 基 础 教 育 3(风力发电)
00302030
理论力学A Theoretical Mechanics A
4
64
64
3
00300111
材料力学B Mechanics of Materials B
4
64
64
4
4
00200490
电路理论B Circuit Theory B
5
80
80
3
00200161
电机学(1) Electrical Machinery(1)
4.5
72
72
4
00200171
电机学(2) Electrical Machinery(2)
1.5
24
24
5
00500160
电子技术基础B Fundamentals of Electronics B
4
64
64
14
5
00301720
风力机空气动力学 Aerodynamics of Wind Turbine
4
64
64
4
5
00600210
工程图学B(1) Engineering Drawing and CAD B(1)
3.5
56
56
1
00600220
工程图学B(2) Engineering Drawing and CAD B(2)
2
32
32
2
00301680
机械制造概论 Introduction to Manufacturing
2
32
32
3
00300490
公差与金属材料Tolerance and Metallic Materials
1.5
24
24
3
00300610
机械设计基础A * Fundamentals of Machinery Design A*
4
64
64
6
4
00400500
自动控制理论B Automatic Control Theory B
3
48
48
5
专业教育1(生物质能)
00300530
锅炉原理
Principles of Steam Boiler
4.5
72
72
8
5
01500830
反应工程
Reaction Engineering
4.0
64
64
6
00300800
汽轮机原理
Steam Turbine Principles
4.5
72
72
8
6
01500840
生物质生化转化技术
Biomass Biotransformation Technology
3.0
48
48
6
01500680
生物质热化学转化技术
Biomass Thermochemical Transformation Technology
3.0
48
48
7
专 业 教 育2(光伏发电)
01501180
专业英语阅读(光伏) Professional English Reading
2
32
32
6
01501190
太阳电池材料与器件(1)Solar Cell Materials and devices
3.5
56
56
5
01501200
太阳电池材料与器件(2) Solar Cell Materials and devices
3.5
56
56
6
6
01501210
太阳电池物理
Physics of Solar Cell
4
64
64
6
01501220
太阳电池材料测试分析
Analytical Method of Photovoltaic Materials
2.5
40
40
6
7
01501230
光伏电站设计、运行与控制
Design,Operation and Control of Photovoltaic Power Station
3
48
48
7
专业教育3(风力发电)
00301730
风力发电原理Principle of Wind Power Generation
2
32
32
4
5
00301762
风电机组设计与制造 Design and Manufacturing of WTGS
3.5
56
56
4
6
01501240
风电场电气工程 Electrical Engineering in Wind Power Plant-1
3
48
48
8
6
00301751
风电机组监测与控制 Monitoring and Control of WTGS
3
48
48
4
7
01501250
风力发电场Wind Power Plant
3.5
56
56
8
6
必修课小计
Subtotal of Required Courses
生物质能方向
128
2038
1934
52
54
104
光伏发电方向
127
2022
1918
40
54
104
风力发电方向
128.5
2046
1942
56
54
104
新能源科学与工程专业选修课教学进程
Table of Teaching Schedule for Elective
1.专业选修(至少13学分) Electives in Specialty (at least 13 credits)
组别
课程编号
课 程 名 称
学
分
总
学
时
课
内
学
时
实
验
学
时
上
机
学
时
课
外
学
时
开课
学期
课程
模块
选课
要求
1
01500060
可再生能源概论
Introdu
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