Academic Journal of Engineering and Technology Science, 2020, 3(2); doi: 10.25236/AJETS.2020.030212.
Xiangdong Zhu1,*, Dezheng Ning1, Huaikong Zhang1, Siwei Wang1, Jianbo Fu1, Yonghui Lu1, Yuhua Wang1, Shouyuan Fan1, Jun Pang2, Lixin Wang2, Miao Zhang2 and Jianyu Wang2
1 China Energy Engineering Group Yunnan Electric Power Design Institute Co.,Ltd., Kunming 650051, China
2 Huaneng New Energy Co., Ltd. Yunnan Branch,kunming 650000, China
*Corresponding author e-mail: email@example.com
The selection of wind turbine icing processing technology is related to the safe and stable operation of wind farms during icing. Based on the processing strategy of wind data, this paper studies the impact of different processing strategies on the calculation of wind turbine power generation, and gives different measurements. The calculation method of power generation amount under wind data condition puts forward that the selection of units in the ice-covered area can adopt the method of power cost comparison, and use the differential internal rate of return to determine whether the wind turbine active ice-coating technology is adopted.
wind turbine icing, data processing strategy, icing processing, unit selection
Xiangdong Zhu, Dezheng Ning, Huaikong Zhang, Siwei Wang, Jianbo Fu, Yonghui Lu, Yuhua Wang, Shouyuan Fan, Jun Pang, Lixin Wang, Miao Zhang and Jianyu Wang. Research on Wind Turbine Selection Based on Different Heavy Icing Data Processing Strategies. Academic Journal of Engineering and Technology Science (2020) Vol. 3 Issue 2: 94-102. https://doi.org/10.25236/AJETS.2020.030212.
 H. Li, L. Shu, Q. Hu, X. Jiang, & G. Qiu. (2018). Numerical simulation of wind turbine blades aerodynamic performance based on ice roughness effect. Diangong Jishu Xuebao/transactions of China Electrotechnical Society, 33 (10), 2253-2260.
 L. Battisti, E. Benini, A. Brighenti, S. Dell’Anna, & M. Raciti Castelli. (2018). Small wind turbine effectiveness in the urban environment. Renewable Energy, 129.
 Marie Cecilie Pedersen, and Henrik Sørensen. "Towards a CFD Model for Prediction of Wind Turbine Power Losses due to Icing in Cold Climate." International Symposium on Transport Phenomena & Dynamics of Rotating Machinery 2016.
 N. Tabatabaei. "Numerical Study of Aerodynamic Characteristics of a Symmetric NACA Section with Simulated Ice Shapes." Journal of Physics Conference 753.2 (2016).
 Ravon Venters, Brian T. Helenbrook, and Kenneth D. Visser. "Ducted Wind Turbine Optimization." Aiaa Applied Aerodynamics Conference 2016.
 SHU Lichun, QI Jiahao, HU Qin, JIANG Xingliang, QIU Gang, & LI Hantao. (2017). Experimental study on de-icing and layout of resistance wire by electrical heating for wind turbine blades. Proceedings of the Csee.. "Experimental Study on De-icing and Layout of Resistance Wire by Electrical Heating for Wind Turbine Blades." Proceedings of the Csee (2017).
 Qi Wang. Advanced Wind Turbine Dynamics. Advanced Wind Turbine Technology. 2018.
 Almutairi, Mohammed, et al. "Residential wind turbine design Decision Support System." 2017.