涉及风电的专业开设
本帖最后由 zhaijianbin 于 2010-11-14 08:59 编辑国内高校风电能源领域的专业开设尚处于起步阶段...多数相关领域的人员是从事机械,电机等领域.....
1) Durham University
-MSc New and Renewable Energy
The taught Masters in New and Renewable Energy is available through one year full-time study. The programme consists of four core and three optional modules. The course comprises lectures, assessed assignments, laboratories and computer classes. Students are able to choose study programmes which are most suited to their interests and follow either MECHANICAL or integrated MECHANICAL-ELECTRICAL engineering sub-streams through selection of optional modules.
http://www.dur.ac.uk/engineering/taughtmsc/mscnareg/
2) Newcastle University
Renewable Energy Flexible Training Programme (REFLEX)There are 12 renewable energy modules that cover: resources; photovoltaics and geothermal energy; marine and offshore devices; marine and offshore structures and systems; electrical generation systems; grid systems; energy management; policy, politics and ethics; mechanical power transmission; wind and hydro-energy technology; hydrogen and fuel cell technology; biomass and waste technology. Each module offered is also designed as a stand-alone CPD module.
http://www.ncl.ac.uk/postgraduate/taught/subjects/energy/courses/422
3)Queen Mary, University of London
本帖最后由 ringofflyme 于 2009-3-31 09:42 编辑-Sustainable Energy Systems (MSc One year full-time)
Programme description
The MSc in Sustainable Energy Systems is an interdisciplinary degree addressing the scientific, engineering and technical aspects of global concerns about the availability of energy sources, sustainability of these sources through exploitation of new technologies or preservation of existing sources, and environmental concerns. The impetus to specialise in this area stems from the large projected increases in global population and energy demand and is underscored by the need for new workable global supplies of affordable sustainable energy. These concerns elevate this energy need as perhaps the greatest single challenge facing the world in the 21st century. The current acute nature of the challenge results from the confluence of concerns about energy supply and demand, security, and the effects of energy production and use on the environment. As a result there is an increasing demand for postgraduates specialising in this field.
This programme will provide you with unique expertise in the fundamentals of energy and the environment. Specialist modules provide knowledge and understanding of existing technologies as well as the ability to contribute to the design and development of new technologies and devices in this field, to develop new technologies to extract energy from diverse energy sources and to use existing and design new energy conversion devices as necessary.
Course content
The programme is structured into two core modules which each student must take, and additionally six elective modules and an individual project.
Core modules:
Advanced Environmental Engineering
Research Methods and Experimental Techniques
Engineering Thermodynamics (depending on background)
Mathematical Methods (depending on background)
Research Project (four modules)
Option modules may include:
Renewable Energy Engineering
Renewable Energy Materials
Sustainable Energy Economics
Advanced Fluid Mechanics and Heat Transfer
Combustion Concepts and Modelling
Advanced Propulsion
Piston Engines and Analysis
Advanced CFD
Advanced Aerodynamics
http://www.qmul.ac.uk/courses/courses.php?article_id=634&course_id=525&dept_id=8#3904
4) Brunel University
本帖最后由 ringofflyme 于 2009-3-31 10:03 编辑-Sustainable Energy: Technologies & Management MSc
Energy management using sustainable technologies and implementation of environmental initiatives plays a rapidly increasing role in many public organisations and industry. There is an urgent need for trained personnel to advise, implement and deliver strategies and management for sustainable practices.
Course Details
Links with industry will be a key part of the programme in the form of guest speakers from various industry sectors. Students will develop themes of expertise facilitated by an MSc project and dissertation, which also provides a useful introduction to students thinking of embarking on a doctoral research degree.
Modules (all core)
Energy Conversion Technologies
Sustainable Built Environment
Renewable Energy Technologies
Principles of Sustainable Development: Energy in Transport and Industry
Environmental Legislation: Energy and Environmental Review and Audit
Environmental Hazards and Risk
Research Methodology and Innovation
Strategic Management and Enterprise
Dissertation
Energy Conversion Technologies
This element includes: principal fuels for energy conversion, production of thermal energy, conversion of thermal to mechanical energy, environmental impacts of power plant operation, conversion of thermal and chemical energy to electricity, cooling and heating equipment and thermal energy storage for heating and cooling
Sustainable Built Environment
This element includes: energy demand and consumption by building type and services, environmental conditions and thermal comfort theory, introduction to energy use for lighting and lighting systems, fundamentals of heat transfer, condensation in buildings, solar radiation, thermal response of buildings. introduction to ventilation, basic principles of natural, forced and hybrid ventilation system design, selection criteria, introduction to air conditioning, basic principles of air conditioning system design, air conditioning system selection criteria and design.
Renewable Energy Technologies
This element includes: energy sources, economics and environmental impact, energy storage technologies, the role of renewables, solar thermal, solar electricity, wind power generation, hydro, tidal and wave power, biofuels, building integrated renewables.
Principles of Sustainable Development: Energy in Transport and Industry
This element includes: sustainable development, energy, energy use, energy as business issue, industrial processes and energy use, energy use by transport systems and travel, advanced transport systems, zero emission vehicles and fuel cell developments.
Environmental Legislation: Energy and Environmental Review and Audit
This element includes: environmental regulations, hands-on environmental review and audit, environmental management systems, energy audit & management, establishing a monitoring and targeting scheme.
Environmental Hazards and Risk
Main topics of study: probability and the concepts of hazard, exposure, risk and uncertainty; approaches used in for characterising hazard and exposure in human health risk assessment and environmental risk assessment; case studies of human and environmental risk assessment in relation to chemical contaminants; PCBs and remediation; environmental impact assessment; managing risks presented by climate change – mitigation and adaptation; risk communication: the nuclear power industry and risk in energy economics; geohazards and risk; flooding and desertification – risk mapping in response to climate change; risk perception, uncertainty, and the precautionary principle: genetically modified organisms, food shortage and agricultural practice, biofuels and the organic devolution.
Research Methodology and Innovation
This element includes: Practical research issues: research processes and strategies; researcher/supervisor roles and relationships; writing, communicating and disseminating research; principles of good research practice. Information retrieval, Risk management: Risk analysis and decision support, financial indicators; and Innovation: Brainstorming, value engineering, intellectual property protection.
Strategic Management and Enterprise
This element includes: Financial ownership issues, Human resources management, Organisation of a business, Marketing concept, Ethical business, Marketing Communications: market research, marketing mix, branding, advertising and sponsorship.
Dissertation
The dissertation is a stimulating and challenging part of each MSc course. Dissertations may be carried out on any approved topic related to sustainable energy technologies and/or management. Essentially the dissertation gives the student the opportunity to apply the techniques and disciplines covered in the taught course to a topic of their own interest, of interest to a sponsoring or industrial organisation, or of research interest.
http://www.brunel.ac.uk/about/acad/sed/sedcourse/pg/mechanical/sustenergy/detail/
5)The University of Nottingham
本帖最后由 ringofflyme 于 2009-3-31 10:27 编辑-Electrical Technology for Sustainable and Renewable Energy Systems (MSc)
This course is operated on a modular basis and consists of two semesters during which you will follow a series of taught modules (worth 120 credits), followed by a 60-credit research project undertaken during the summer period.
Modules:
Control Systems
This module enables students to design both analogue and digital controllers for linear single-input single-output systems. Students have access to CAD control design packages for evaluating control design. This module covers:
design of analogue controllers using Root Locus Method
closed loop performance and frequency response
practical problems in digital control
design of digital controllers using z-plane techniques
practice with CAD package.
Energy Conversion for Motor and Generator Drives
This module provides an understanding of how electrical machines and controlled power converters combine to form variable-speed drive systems meeting the need of motive power applications. This module includes:
review of ac and dc machines
power electronic control of machines
control techniques and system performance
drive comparison and applications
performance, reliability and cost.
analysis of typical load systems and specifications
Renewable Energy Technology 1
This module will examine the various sources of renewable energy suitable for use in buildings. It will concentrate on wind, water, waste heat, solar, geothermal and bio-mass as potential sources of energy and investigate the contribution they can make to a building's energy requirement, the technology used to harness them and limitations associated with their use.
Renewable Energy Technology 2
This module will examine aspects of performance analysis and system design/sizing of renewable energy systems for building integration. The course provides opportunities to gain experience in issues of technology selection, system design, installation and performance analysis of a range of renewable energy systems. The module will emphasize on solar energy technolgoeis (photovoltaic and solar thermal systrems) and small scale wind turbines.
The course will cover aspects of weather data resource/collection, system performance analysis, system design parameters, design/simulation tools and field evaluation of these technologies.
MSc Project
In this module a student will be assigned to an individual supervisor who will be a staff member in the School of Electrical and Electronic Engineering. The student will carry out a practical or theoretical project chosen from the current interests of the staff member concerned. The student will be expected to conduct a literature survey, undertake practical or theoretical work and write a dissertation on this work.
Power Electronic Design
This module provides students with an understanding of the operational principles of power electronic converters and their associated systems. This module covers:
3-phase naturally commutated ac-dc/dc-ac converters
capacitive and inductive smoothing - device ratings
dc-ac PWM inverters and modulation strategies
resonant converters
high power factor utility interface circuits
thermal management of power devices including transient thermal effects.
simulation of Power converters using a suitable CAD package
Power Networks with Laboratory
This module provides students with an understanding of power system apparatus and their behaviour under normal and fault conditions. It also provides an opportunity to apply CAD techniques to power system problems. This module covers:
concept and analysis of load flow
voltage/current symmetrical components
computation of fault currents using z-bus method
economic optimisation
power-system control and stability
Flexible AC Transmission (FACTS).
Power Quality
Combined Heat and Power Systems
The objective of this module is to examine Combined Heat and Power (CHP) technology inncluding large, mini and small-scale systems. The module will include topics on prime movers technology used in different types of CHP scemes (steam, gas, CCGT, IC, Stirling engine, and Fuel cells) and associated electric generators/alternators, and control devices. Operation and performance of each CHP scheme (large scale CHP, District heating, mini-CHP for large buildings, and micro-CHP for single dwellings) will also be covered. Assessment and performance measurement of a mini-CHP and/or micro-CHP system will be carried out in the form of a mini-project to assess economical viability of such schemes.
Technologies for the Hydrogen Economy
This module considers:
Future of fossil fuel supplies and alternative fuels
Sustainable sources of Hydrogen
Fuel cell technologies
Hydrogen storage and distribution
Applications and feasibility assessment
FACTS and Distributed Generation
This module provides students with an understanding of power systems which include renewable energy generators. It investigates the operation of renewable energy generators at a systems level, including analysis of distributed generation systems. The module covers:
analysis of load flow in distributed generation systems
operation and control of microgrids
operation of the grid - regulation and contracts
economic optimisation of renewable generators within a power system
distributed power system control and stability
Introduction to protection methods
Use of STATCOM devices
Flexible AC transmission systems (FACTS)
Technologies for Wind Generation
This module provides students with an understanding of the technologies used in wind power systems. It investigates the operation of wind generators and of wind farms and the current developments in electrical engineering for wind power. The module covers:
analysis of doubly-fed induction generators
analysis of permanent magnet generators
vector control of generators
operation and control of wind farms
economic optimisation of wind generators within a power system
AC-DC transmission links for offshore wind farms
Advanced AC Drives with Project
The course will cover AC drives beyond the conventional induction motor drives. It will cover the following aspects and will incorporate the most recent technical developments where appropriate:
Introduction to Permanent Magnet Motors
Brushless DC Drives
Review of open loop variable speed AC Drives and drive applications
Brushless AC Drives
Space phasor and dq representation of induction machines
Vector control techniques
Self tuning techniques
Sensorless vector drives
Direct torque control.
http://pgstudy.nottingham.ac.uk/postgraduate-courses/electrical-technology-for-sustainable-and-renewable-energy-systems-msc/course-content_223.aspx 谢谢,帅哥哦
6) KTH - Royal Institute of Technology
本帖最后由 ringofflyme 于 2009-3-31 12:01 编辑瑞典皇家理工在这方面对专业进行了细分 (www.kth.se):
a)-Innovative Sustainable Energy Engineering 创新型可再生能源工程
This new MSc programme, formed under the auspices of the Nordic Council of Ministers, pools the strengths from energy departments located at the largest technical universities in Sweden, Denmark, Norway, Finland, and Iceland. The purpose of the programme is to provide state-of-the-art education in the fields of conventional and renewable energy sources and new power generation, such as solar energy, biomass energy, wind power, geothermal power, and energy utilization in the built environment by means of economically and environmentally sustainable systems and technologies.
Programme outline
An intense introductory study period commences at KTH, establishing a broad, solid base in energy engineering fundamentals. Further specializations within key subjects are then offered at one or two of the five partner universities: as part of a mobility component participants must spend at least one semester outside KTH. Innovative and entrepreneurial aspects are highlighted via the advanced renewable energy concepts that are being implemented in the Nordic countries. Participants gain proficiency in project design and implementation, operation and maintenance, as well as in crucial phases of policy generation. Advanced training in a research-oriented perspective is also included.
http://www.kth.se/studies/master/programmes/me/2.8797?l=en
b)-Sustainable Energy Engineering 可再生能源工程
The purpose of the SEE Programme is to provide state-of-the-art education in the fields of solar energy, power generation, and energy utilization in the built environment by means of economically and environmentally sustainable systems and technologies. Strong emphasis is placed on dealing with energy engineering tasks with due consideration of technical, environmental and socio-economic issues.
Programme outline
The curricula for the three specialisations - Sustainable Power Generation, Sustainable Energy Utilization in the Built Enviroment and Solar Energy - are marked by an intensive introductory period followed by broad-based coursework giving participants a solid foundation for the particular study track. Advanced methods are applied to identify, describe, quantify and find solutions to a diverse range of energy engineering problems.
Participants gain proficiency in project design and implementation, operation and maintenance, as well as in crucial phases of policy generation. The programme also offers substantial coursework within a research preparatory perspective.
http://www.kth.se/studies/master/programmes/me/2.1746?l=en
c)-Sustainable Technology 可再生能源技术
The programme Sustainable Technology is based on the concept of Industrial Ecology with focus on the understanding of interactions between technical, economic, social and ecological systems and processes.
Industrial Ecology can also be considered as a concept for how industry, or rather the entire industrial society of today, will work in the future in order to reduce its interference with the life-supporting ecosystems of the world. Risk Assessment is also a very important area in sustainable development that includes issues such as comparing risks between different energy solutions, communication of risks between different stakeholders etc.
Technology is an important driving force for economic development and technology and communication are two essential factors in the development of more sustainable societies. Without new sustainable technologies, it will not be possible to attain economic growth and global equity. Without communication skills, it will not be possible to reach consensus in the democratic processes in society for different new technologies. These insights will be the foundation in the Master’s programme in Sustainable Technology.
The Sustainable Technology programme is divided into two branches, Environmental Management or Environmental Technology, a choice the students will make in the middle of the programme.
Programme outline
The Master’s programme in Sustainable Technology has a total duration of 2 years, divided in 4 terms. The programme is built up of 3 terms of theoretical courses which amount to 91.5 ECTS credits. Compulsory courses amount to 79.5 ECTS and 12 ECTS are from elective courses.
The study period is followed by an average five to six months of thesis project work (30 ECTS). The programme is open to applicants from all over the world. The programme language is English.
The pedagogical concept applied in the learning process is to work with projects, best practice and case studies, consequently considerable effort is put into training students in discussions, methods for critical analysis and written and oral presentations. It is also high priority to link courses and projects to practical experience through cooperation with companies, institutions and public authorities.
http://www.kth.se/studies/master/programmes/me/2.1747?l=en 顶顶
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7) Technical University of Denmark (DTU).
本帖最后由 ringofflyme 于 2009-3-31 13:57 编辑丹麦技术大学 MSc in Wind Energy
General description Wind power is already a very important source in producing electricity and its importance is steadily increasing. In 2020 wind power is expected to deliver 12% of the global electricity demand, create 2.3 million jobs and make a substantial contribution to the reduction of the CO2-emissions. With a MSc in Wind Energy from DTU you get an education based on worldleading expertise at the heart of global wind-power development.
The course is based on state-of-the-art knowledge and technology, combining the scientific research and accumulated knowledge of DTU and Risoe with teaching and guidance from a large number of associated experts and researchers from the industry. As a world-leading university in wind-energy technology DTU has been engaged in wind-energy research and education since the 1970’s and has offered a dedicated MSc education in wind power since 2002.
The MSc in wind energy is offered with a specialization in either mechanical or electrical engineering. Several activities and courses are common for the two specializations and are coordinated with common elective courses. Thus it is possible to obtain a crossdisciplinary knowledge of a wide range of wind-power technologies.
The aim of the MSc in Wind Energy is to give a general understanding of wind-energy systems and a profound knowledge of aerodynamics, aero-elasticity, mechanics, grid connection and power systems that qualifies you to analyze, design, develop and operate wind energy systems.
Study lines: [*]Wind Energy - Mechanical [*]Wind Energy - Electrical
http://www.dtu.dk/upload/english/education/windenergy_2009.pdf
http://www.dtu.dk/English/education/MSc_Programs/Wind%20Energy.aspx
8) Aalborg University
本帖最后由 ringofflyme 于 2009-3-31 13:58 编辑Master in Wind Energy
The Master’s programme in Wind Energy aims primarily at engineers in the mechanical and/or electrical field. The programme is structured as a two-year part-time education so that it is possible to keep up one’s daily work at the same time. It is a modular programme which means that courses and projects can be completed according to the individual student’s needs and interests without being obliged to sign up for the entire programme. After the first semester, one can choose between two specializations within Mechanics or Electronics.
The Purpose of the Master’s Programme in Wind Energy is to Enable the Student to:
[*]acquire research based competence in the wind energy area[*]acquire knowledge of fundamental theories and methods used in the wind energy area attain theoretical and practical skills required for wind turbine planning and design develop technical skills relating to the design, analysis, specification and evaluation of complex wind turbine projects.Contents of the Master’s Programme
On the 1st semester a general introduction to important problems arising in wind energy engineering will be given. The programme has an electrical and a mechanical specialization
Within the mechanical specialization focus is concentrated on the determination of aerodynamic loads on wind turbines, dynamic structural analyses and optimization of wind turbine blades. The students will be able to analyse and dimension wind turbine structures. Special focus will be on structural dynamics, aerodynamics and material-mechanical conditions for wind turbine blades.
The the electro technical specialization primarily focuses on the electrical and controlling aspects of wind turbine technology, i.e. electric machines, effect electronics, control and regulation theory and analysis of the electric coupling to the power supply network. Further, the programme provides knowledge of stability conditions and protection to enable the participants to analyse and dimension the electric components of a wind turbine so that it will be possible to predict its effect on the power supply system.
Courses and project are offered individually for each of the two specializations. However, a number of courses common for both of the specializations are also offered, on the first semesters in particular.
Form of Work
The teaching on each semester consists of four to six seminars of 2-3 days’ duration, distance education, self study and project work in groups. If a student has no need – or time – for the whole Master’s programme, it is possible to attend individual courses.
In the spring of 2010, the following courses are offered at the 1st semester.:
[*]Aerodynamics I, 1 ECTS[*]Control of Wind Turbines, 1 ECTS[*]Structural Mechanics, 1 ECTS[*]Load Modelling, 1 ECTS[*]Generators I, 1 ECTS[*]Electricity, Magnetism, and Circuit Theory, 1 ECTS[*]Planning of Wind Power Projects, 1 ECTS.
http://en.evu.aau.dk/masters-programmes/wind-energy 没看到有国内的大学啊。哎
9)华北电力大学
本帖最后由 ringofflyme 于 2009-4-1 10:06 编辑华北电力大学(国内最早开设该本科专业) 2006年开始招收 风能与动力工程
主要课程:力学、电学、工程图学、计算机、机械设计咱动控制理论、材料学、风能资源测量与评估、风电机组原理与设计、风电场电气设计与控制、风电场运行与维护、风力发电项目开发等课程 预计2010年毕业
http://thermal.ncepu.edu.cn/html/20076217534-1.Html
http://learning.sohu.com/20060406/n242664600.shtml
10)兰州理工大学
流体动力与控制学院- 风能与动力工程专业 获得教育部批准(教高〔2008〕10号) 。http://news.lut.cn/www/ContentsDisp.asp?id=2128&ClassId=1
11)长沙理工大学
本帖最后由 ringofflyme 于 2009-4-1 16:07 编辑能源与动力工程学院-风能与动力工程专业 获得教育部批准(教高〔2008〕10号)
2009年开始招生。专业代码080507S
主要专业课程有风力机原理、风电机组设计与制造、旋转机械振动与处理、动力机械测试技术、风电机组检测与控制、风电场电气部分、风力发电场、风能资源测量与评估等。
http://www.csustbbs.net/read.php?tid=87614
12)河海大学
本帖最后由 ringofflyme 于 2009-4-1 16:06 编辑原申请专业时为“再生资源科学与技术”(专业代码080210W),后更名为“风能及动力工程”专业(专业代码080507S) 2008年开始招生
主要课程有高等数学、大学英语、大学物理、机械制图、理论力学、材料力学、结构力学、工程材料、机械设计基础、电路、电子技术基础、程序设计语言、空气动力学、热工原理、控制工程基础、电力电子技术、电气设备、风电场规划与设计、风力机、风力机控制、近海风电场、风资源测量与评估、风电场施工与管理、风电场建模与仿真、风力发电塔架与基础等
http://sdxy.hhu.edu.cn/shownews.asp?id=741 本帖最后由 ringofflyme 于 2009-4-1 17:01 编辑
个人感觉丹麦的Technical University of Denmark (DTU)和瑞典的KTH - Royal Institute of Technology的课程设置更趋于专业化(适合职前教育), UK院校的课程设置更体现通识教育 这领域最好的学校大概就是丹麦科技和瑞典KTH了 华北电力大学(国内最早开设该本科专业) 2006年开始招收 风能与动力工程
主要课程:力学、电学、工程图学、计算机、机械设计咱动控制理论、材料学、风能资源测量与评估、风电机组原理与设计、风电场电气设计与控制、 ...
ringofflyme 发表于 2009-4-1 09:27 http://www.simol.cn/images/common/back.gif
这个我熟,你知道的,^_^
补充一下,丹麦科技大学Wind Energy专业的课程设置
本帖最后由 ringofflyme 于 2009-4-4 10:00 编辑MSc in Wind Energy -Technical University of Denmark
Study Plan
The aim of the MSc programme in Wind Energy is to give you a general understanding of wind energy and a deep insight and knowledge in technologies related to wind power production which qualifies you to analyse, design, develop, and operate wind energy systems.
The programme in Wind Energy is characterized by the following:
· The education covers the broad range of technologies involved in wind power.
· All courses are taught on an advanced technical level, in English.
· The teaching is based upon and integrated with world-leading research in wind energy.
A high degree of freedom is given in the choice of focus to allow establishment of an individual academic profile.
The wind energy industry, Risø DTU and others are actively involved in the master programme. External partners take active part in the teaching. The Masters thesis often involves an active cooperation with one or more external partners.
Program Provisions
To obtain the MSc degree in Wind Energy, the student must fulfill the following requirements:
· Have passed General Competence Courses adding up to 30 ECTS points
· Have passed Technological Specialization Courses adding up to at least 30 points
· Have performed a Master Thesis of at least 30 points within Wind Energy.
· Have passed a sufficient number of Elective Courses from the list to bring the total number of ECTS points of the entire study to 120.
General Competence Courses
一般权限课程
Course 41313 Wind Turbine Technology and Aerodynamics is mandatory in the beginning of the programme. The course gives a broad understanding of wind energy technology and is essential for a deeper understanding of wind turbines needed in succeeding courses.
当然41313风轮机技术和空气动力学是强制性的方案开始实施。本课程提供了广泛的理解和风力发电技术是必不可少的更深入的了解风力发电机需要在以后的课程。
31786 /Design of Wind Turbine10 points
31784 Wind Turbine Measurement Technique10 points
41313 Wind Turbine Technology and Aerodynamics (mandatory)7.5 points
45700 Planning and development of wind farms 5 points
42490 Technology, Economics, Management and Organization (TEMO)10 points
31786风力发电机组的设计 10分
31784风力涡轮机测量技术 10分
41313风轮机技术和空气动力学(强制性) 7.5分
45700规划和发展的风力发电场5分
42490科技,经济,管理和组织(TEMO) 10分
Technological Specialization Courses
技术专业课程
Select one of the two following specializations
选择其中一个下列两个专业
Electrical Engineering
电气工程
31356 High Power Electronics10 points
31741 Power System Networks5 points
31750 Stability and Control in Electric Power Systems10 points
31783 Integration of Wind Power in the Power System 5 points
31782 Electric Machines in Wind Turbine Systems5 points
31745 Computational Electric Energy Systems5 points
31356 高功率电子学 10分
31741 电力系统网络 5点
31750稳定性和控制电力系统 10分
31783一体化的风力发电在电力系统 5点
31782电机在风力发电机系统 5点
31745计算电能系统 5点
Mechanical Engineering
机械工程
41228 Composite Lightweight Structures 10 points
41329 Projects in Wind Turbine Aeroelasticity10 points
41319 Computational Fluid Dynamics10 points
41525 FEM Heavy10 points
41822 Experimental Methods in Fluid Mechanics5 points
45701 Wind Resources and Loads on Wind Turbines5 points
41228复合轻质结构10分
41329项目的风力发电机气动弹性 10分
41319计算流体动力学10分
41525有限元 10分
41822实验方法在流体力学 5点
45701风能资源和风力发电负荷 5点
Elective courses
选修课程
Aerodynamics and Fluid Mechanics
空气动力学和流体力学
41128 Turbulence Theory10 points
45701 Wind Resources and Loads on Wind Turbines5 points
41220 Theoretical Ship Hydrodynamics7.5 points
41319 Computational Fluid Dynamics7.5 points
41329 Projects in Wind Turbine Aero elasticity15 points
41326 Wind Turbine Ice Prevention Systems Selection and Design5 points
41390 Experimental Fluid Dynamics and Data Interpretation5 points
41323 Advanced Fluid Mechanics10 points
41822 Experimental Methods in Fluid Mechanics5 points
41128湍流理论 10分
45701风能资源和风力发电负荷 5点
41220理论船舶流体力学 7.5分
41319计算流体动力学 7.5分
41329项目的风力发电机组的航空弹性 15分
41326风力发电机组防凌系统选择与设计 5点
41390实验流体力学和资料解释 5点
41323高级流体力学 10分
41822实验方法在流体力学 5点
Structural Mechanics
结构力学
41212 Risk and Decision Analysis5 points
41214 Dynamics of Structures: Theory and Analysis7.5 points
41215 Plate and Shell Structures5 points
41511 Strength of Materials5 points
41291 Non-Linear Modelling and Analysis of Structures and Solids5 points
41811 Experimental Mechanics5 points
41812 FEM-Light10 points
41816 CAD/CAM5 points
41212风险与决策分析5点
41214动态的结构:理论与分析 7.5分
41215板壳结构 5点
41511材料力学 5点
41291非线性建模与分析的结构和固体 5点
41811实验力学 5点
41812有限元 10分
41816CAD / CAM 5点
Wind Turbine Construction and Materials
风力发电机组的建造和材料
31260 Advanced Acoustics10 points
31270 Sound and Vibration10 points
41513 Machine Elements10 points
41514 Dynamics of Machinery5 points
41522 Plasticity and Fracture Mechanics10 points
41525 FEM-Heavy10 points
41521 Advanced Vibration and Stability Analysis10 points
41524 Tribology of Machine Elements5 points
41660 Applied Mechatronics5 points
31260 高级声学 10分
31270 声音和振动 10分
41513 机械零件 10分
41514 机械动力学 5点
41522 塑性和断裂力学 10分
41525 有限元 10分
41521 先进的振动和稳定性分析 10分
41524 机械零件的摩擦学 5点
41660 应用机电一体化 5点
Offshore Technology and Foundation
海洋技术和基金
11414 Advanced Soil Mechanics10 points
11416 Numerical Modelling in Geotechnical Engineering5 points
41111 Hydrodynamics II5 points
41121 Marine Structures10 points
41124 Computational Coastal Hydrodynamics5 points
41223Linear and Nonlinear Wave Dynamics10 points
11414高级土力学 10分
11416数值模拟在岩土工程 5点
41111流体力学二 5点
41121海洋结构 10分
41124沿海计算流体力学 5点
41223线性与非线性波动力学 10分
Electrical Design, Grid Connection and Power System Integration
电气设计,网格连接和电源系统集成
31352 Power Electronics 110 points
31356 High Power Electronics10 points
31730 Electric Power Engineering, Fundamentals10 points
31742 Power System Networks5 points
31745 Computational Electric Energy Systems 5 points
31750Stability and Control in Electric Power Systems10 points
31770 High Voltage Engineering10 points
31773 Power apparatus design and diagnosis5 points
31783 Integration of wind power in the power system5 points
31782 Electric Machines in wind turbine systems5 points
31352电力电子技术1 10分
31356高功率电子学 10分
31730电力工程,基本 10分
31742电力系统网络 5点
31745计算电能系统5点
31750稳定性和控制电力系统 10分
31770高电压工程 10分
31773电力设备设计和诊断 5点
31783风力发电的集成在电力系统 5点
31782电机在风力发电机系统 5点
Control and Regulation
控制和管理
02421 Stochastic Adaptive Control10 points
31310 Linear Control Design 210 points
31320 Robust and Fault-tolerant Control10 points
31340 Computer Control Systems10 points
31360 Fuzzy, Neural, and Adaptive Control10 points
31372 Hierarchical and distributed automation systems 5 points
31380 Intelligent Systems10 points
41661 Fluid power – Hydraulic and Water Hydraulic Control5 points
41671 Motion Control10 points
02421随机自适应控制 10分
31310线性控制设计2 10分
31320健壮和容错控制 10分
31340计算机控制系统 10分
31360模糊,神经,和自适应控制 10分
31372分层分布式自动化系统 5点
31380智能系统 10分
41661流体动力-液压和水液压控制 5点
41671运动控制 10分
Wind Energy Prognosis and Optimization
风能预测与优化
02417 Time Series Analysis5 points
02427 Advanced Time Series Analysis10 points
02711 Static and Dynamic Optimization5 points
02417时间序列分析 5点
02427高级时间序列分析 10分
02711静态和动态优化 5点
(以上中文部分翻译由google翻译自动完成,有不足之处,尽请谅解,也希望专业人事指出,谢谢) Aalborg University不错啊,他们有个riso实验室,里面的陈哲教授挺牛的
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