The design and testing of a small-scale wind turbine fitted to the ventilation fan for a livestock building

Small-scale wind power generation is at present not promising in Korea because of low-speed and unstable natural wind conditions. A wind turbine, which uses artificial and high-speed wind created at the ventilation fan of a livestock building, is proposed as an alternative to conventional approaches...

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Bibliographic Details
Published in:Computers and electronics in agriculture 2013-11, Vol.99, p.65-76
Main Authors: Hong, S.-W, Lee, I.-B, Seo, I.-H, Kwon, K.-S
Format: Article
Language:English
Subjects:
Agronomy. Soil science and plant productions
air flow
Applied sciences
Biological and medical sciences
Blade element momentum (BEM) method
Blades
Construction
Direct power generation
Electricity
Energy
energy costs
Energy recovery
Exact sciences and technology
Fundamental and applied biological sciences. Psychology
industry
Livestock
momentum
power generation
Small-scale wind turbine
Ventilation
Ventilation fan
wind
Wind power
Wind power generation
Wind turbines
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Summary:Small-scale wind power generation is at present not promising in Korea because of low-speed and unstable natural wind conditions. A wind turbine, which uses artificial and high-speed wind created at the ventilation fan of a livestock building, is proposed as an alternative to conventional approaches. The new blades developed in this study were designed with blade element momentum (BEM) method and optimized on the complex airflow of the ventilation fan. A three-phase alternating current permanent magnet synchronous generator (PMSG), tower, power converter and additional accessories were designed and used to build a wind power system. The wind power system was finally installed on a broiler house and tested by AC load tester. As a result of the evaluation, the new blades of 1.54m in diameter showed 350W of electricity output, while the system produced 300W of electricity because of the electricity loss during the power conversion process. Considering the ventilation fan emits 1kW of energy, the wind power system recovered 30% of its energy and converted it into usable energy. The load imposed on the existing ventilation system during the generation process, such as loss of ventilation flow rate and increase of electricity consumption, was also investigated. There was only a 1.5% ventilation rate reduction and therefore it can be concluded that there was almost no additional load on the existing ventilation fan operation suggesting economic assistance for those who are suffering from increased energy costs in the livestock farming industry.
ISSN:0168-1699
1872-7107
DOI:10.1016/j.compag.2013.08.020