Wind farm deployment by wind turbines of different power curves under a 2-way routine of energy-and-costs constrained optimization
Abstract
Parameters of the efficient wind farm deployment are determined as a probability density function estimation for area wind statistics and an appropriate set of wind turbines based on the given either an annual desired energy or initial financial resources. A routine of the deployment is stated in four items. The estimation follows giving initial data/conditions and a number of wind turbines might be used for building a wind farm. The efficiency is achieved via energy-and-costs optimization. At this point, the power output is maximized with minimizing costs or controlling their grand total.
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References
Breeze P. Wind Power Generation. — Elsevier : Academic Press, 2015. — 104 p.
Song M. Micro-siting optimization of a wind farm built in multiple phases / M. Song, Y. Wen, B. Duan, J. Wang, Q. Gong // Energy. — 2017. — Vol. 137. — P. 95 — 103.
Song D. A novel wind speed estimator-integrated pitch control method for wind turbines with global-power regulation / D. Song, J. Yang, M. Su, A. Liu, Z. Cai, Y. Liu, Y. H. Joo // Energy. — 2017. — Vol. 138. — P. 816 — 830.
Romanuke V. V. Increasing an expected power of the wind farm with diversification in non-dominated power curves of the used wind turbines / V. V. Romanuke // Bulletin of V. Karazin Kharkiv National University. Series “Mathematical Modelling. Information Technology. Automated Control Systems”. — 2017. — Issue 35. — P. 74 — 79.
https://www.thewindpower.net/data/samples/Sample_Power_curves.xls
