The research of designing controllers for variable-speed wind turbine systems
碩士 === 中華技術學院 === 土木防災工程研究所 === 97 === Due to green energy trends around the world and possible future energy crisis, wind power generation is one of the fastest growing energy industries. Wind power generation related research development is receiving more attention each day. Due to its island na...
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ndltd-TW-097CHIT06530122015-11-20T04:18:27Z http://ndltd.ncl.edu.tw/handle/19141457037382046480 The research of designing controllers for variable-speed wind turbine systems 可變速風力發電系統控制器設計之研究 Hsin-sung Su 蘇信松 碩士 中華技術學院 土木防災工程研究所 97 Due to green energy trends around the world and possible future energy crisis, wind power generation is one of the fastest growing energy industries. Wind power generation related research development is receiving more attention each day. Due to its island nature, Taiwan has high potentials in wind energy development. However, wind energy industries in Taiwan presently are far behind those of developed nations in Europe and North America. Other than towers and concretes, most of the installed MW-level wind power generation systems in Taiwan are imported. Key aspects of wind power generation technology have been withheld by environmentally conscious nations in Europe and America. Thus, how to improve power generation technology within Taiwan is an urgent topic.Currently, most of the wind generation developments are variable-pitch, variable-speed wind turbines. The purpose is for the collection of maximum wind power. However, with increasing MW generation and fan blades, so is the blade inertia. Consequently, affected fan speed is a problem due to blade hardware control of variable-pitch wind turbine. Therefore, this research studies variable-speed, fixed-pitch, and horizontal wind turbine for optimal control. Fixed-pitch wind turbine is structurally simple, easy to control, and reliable. Variable speed control can be obtained for optimal efficiency under normal fan speed. Even if strong wind causes the generator to exceed the rated power, the controller can still maintain normal rated power output through motor torque without variable-pitch hardware design and control. This not only reduces the cost of design and control, but also the expenditure.The power tracking controller used in this research is designed for the variable structure control. Since off-shore wind power generators are the future trend, the simulation parameter is based on data from off-shore wind power generator at present. The wind power generator is rated at 5 MW, the blade radius is 60 m, and the turbine is rated at 12 rev/min. Tests confirmed that variable-speed, fixed-pitch, and horizontal wind turbine is realizable for optimal power trace、generator rotational speed、and Power conversion coefficient. Hopefully, this study provides useful consideration to future wind power generation system research and development. 楊宏宇 2009 學位論文 ; thesis 67 zh-TW |
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碩士 === 中華技術學院 === 土木防災工程研究所 === 97 === Due to green energy trends around the world and possible future energy crisis, wind power generation is one of the fastest growing energy industries. Wind power generation related research development is receiving more attention each day. Due to its island nature, Taiwan has high potentials in wind energy development. However, wind energy industries in Taiwan presently are far behind those of developed nations in Europe and North America. Other than towers and concretes, most of the installed MW-level wind power generation systems in Taiwan are imported. Key aspects of wind power generation technology have been withheld by environmentally conscious nations in Europe and America. Thus, how to improve power generation technology within Taiwan is an urgent topic.Currently, most of the wind generation developments are variable-pitch, variable-speed wind turbines. The purpose is for the collection of maximum wind power. However, with increasing MW generation and fan blades, so is the blade inertia. Consequently, affected fan speed is a problem due to blade hardware control of variable-pitch wind turbine. Therefore, this research studies variable-speed, fixed-pitch, and horizontal wind turbine for optimal control. Fixed-pitch wind turbine is structurally simple, easy to control, and reliable. Variable speed control can be obtained for optimal efficiency under normal fan speed. Even if strong wind causes the generator to exceed the rated power, the controller can still maintain normal rated power output through motor torque without variable-pitch hardware design and control. This not only reduces the cost of design and control, but also the expenditure.The power tracking controller used in this research is designed for the variable structure control. Since off-shore wind power generators are the future trend, the simulation parameter is based on data from off-shore wind power generator at present. The wind power generator is rated at 5 MW, the blade radius is 60 m, and the turbine is rated at 12 rev/min. Tests confirmed that variable-speed, fixed-pitch, and horizontal wind turbine is realizable for optimal power trace、generator rotational speed、and Power conversion coefficient. Hopefully, this study provides useful consideration to future wind power generation system research and development.
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author2 |
楊宏宇 |
author_facet |
楊宏宇 Hsin-sung Su 蘇信松 |
author |
Hsin-sung Su 蘇信松 |
spellingShingle |
Hsin-sung Su 蘇信松 The research of designing controllers for variable-speed wind turbine systems |
author_sort |
Hsin-sung Su |
title |
The research of designing controllers for variable-speed wind turbine systems |
title_short |
The research of designing controllers for variable-speed wind turbine systems |
title_full |
The research of designing controllers for variable-speed wind turbine systems |
title_fullStr |
The research of designing controllers for variable-speed wind turbine systems |
title_full_unstemmed |
The research of designing controllers for variable-speed wind turbine systems |
title_sort |
research of designing controllers for variable-speed wind turbine systems |
publishDate |
2009 |
url |
http://ndltd.ncl.edu.tw/handle/19141457037382046480 |
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