Using Adaptive Safe Experimentation Dynamics Algorithm for Maximizing Wind Farm Power Production

This research presents a model-free strategy for increasing wind farm power generation based on the Adaptive Safe Experimentation Dynamics Algorithm (ASEDA). The ASEDA method is an improved version of the Safe Experimentation Dynamics (SED) algorithm that modifies the current tuning variable to resp...

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Vydané v:	2022 57th International Universities Power Engineering Conference (UPEC) s. 1 - 4
Hlavní autori:	Ahmad, Mohd Ashraf, Jui, Julakha Jahan, Ghazali, Mohd Riduwan
Médium:	Konferenčný príspevok..
Jazyk:	English
Vydavateľské údaje:	IEEE 30.08.2022
Predmet:	Adaptation models Heuristic algorithms Linear programming power generation Prediction algorithms renewable energy safe experimentation dynamics Wind energy generation wind farm Wind farms Wind power generation
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Abstract	This research presents a model-free strategy for increasing wind farm power generation based on the Adaptive Safe Experimentation Dynamics Algorithm (ASEDA). The ASEDA method is an improved version of the Safe Experimentation Dynamics (SED) algorithm that modifies the current tuning variable to respond to the changes in the objective function. The convergence accuracy is predicted to be enhanced further by adding the adaptive element to the modified SED equation. The ASEDA-based technique is used to determine the ideal control parameter for each turbine to maximize a wind farm's total power generation. A single single-row wind farm prototype with turbulence coupling among turbines is employed to validate the proposed approach. Simulation findings show that the ASEDA-based approach provides more total power generation than the original SED technique.
AbstractList	This research presents a model-free strategy for increasing wind farm power generation based on the Adaptive Safe Experimentation Dynamics Algorithm (ASEDA). The ASEDA method is an improved version of the Safe Experimentation Dynamics (SED) algorithm that modifies the current tuning variable to respond to the changes in the objective function. The convergence accuracy is predicted to be enhanced further by adding the adaptive element to the modified SED equation. The ASEDA-based technique is used to determine the ideal control parameter for each turbine to maximize a wind farm's total power generation. A single single-row wind farm prototype with turbulence coupling among turbines is employed to validate the proposed approach. Simulation findings show that the ASEDA-based approach provides more total power generation than the original SED technique.
Author	Ghazali, Mohd Riduwan Jui, Julakha Jahan Ahmad, Mohd Ashraf
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SubjectTerms	Adaptation models Heuristic algorithms Linear programming power generation Prediction algorithms renewable energy safe experimentation dynamics Wind energy generation wind farm Wind farms Wind power generation
Title	Using Adaptive Safe Experimentation Dynamics Algorithm for Maximizing Wind Farm Power Production
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