- Title
- Computational modelling of small wind turbine dynamics
- Creator
- Bradney, David; Clausen, Philip
- Relation
- 52nd Annual Australian Solar Council Industry Conference and Exposition: Solar 2014 Confernce & Expo. Proceedings of the 52nd Annual Conference, Australian Solar Energy Society (Australian Solar Council) (Melbourne, Vic. 8-9 May, 2014) p. 101-110
- Relation
- ARC.DP Grant
- Relation
- http://solar.org.au/information-portal/
- Publisher
- Australian Solar Council
- Resource Type
- conference paper
- Date
- 2014
- Description
- Unsteady operating conditions present additional challenges for the operation of small horizontal axis wind turbines including maximising energy capture from the wind. Computational models exist for each component of wind turbines, however many of these models have been derive from operating in steady conditions. This paper details the complete integration of models for blade aerodynamics, turbine yaw and drive train dynamics and compares predictions with measurements taken from an instrumented 5 kW horizontal axis wind turbine. Results show that the combined model captures the overall response of each component, however, model refinements of the yaw response and blade stall need to be incorporated to accurately capture the dynamic response of the whole turbine.
- Subject
- small wind turbines; dynamics; unsteady; computational
- Identifier
- http://hdl.handle.net/1959.13/1293786
- Identifier
- uon:18683
- Identifier
- ISBN:9480646922195
- Language
- eng
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