Wind Farm Layout Optimization Using a Metamodel and EA/PSO Algorithm in Korea Offshore

Shin, Joongjin; Baek, Su‐Jin; Rhee, Young‐Woo

doi:10.3390/en14010146

Cited by 21 publications

(14 citation statements)

References 19 publications

(19 reference statements)

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“…Most wind energy is harnessed by employing large horizontal axis wind turbines (HAWT) in areas of high wind density, mostly in rural and off-shore sites where abundant wind velocity is observed throughout the year [23,24]. Offshore wind farms are the main source of global wind energy generation, contributing up to 50% of the capacity factor.…”

Section: Prior Literaturementioning

confidence: 99%

Recent Development in the Design of Wind Deflectors for Vertical Axis Wind Turbine: A Review

et al. 2021

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Developments in the design of wind turbines with augmentation are advancing around the globe with the goal of generating electricity close to the user in built-up areas. This is certain to help lessen the power generation load as well as distribution and transmission network costs by reducing the distance between the user and the power source. The main objectives driving the development and advancement of vertical-axis wind turbines are increasing the power coefficient and the torque coefficient by optimizing the upstream wind striking on the rotor blades. Unlike horizontal-axis wind turbines, vertical axis turbines generate not only positive torque but also negative torque during operation. The negative torque generated by the returning blade is a key issue for vertical-axis wind turbines (VAWTs) that is counterproductive. Installation of wind deflectors for flow augmentation helps to reduce the negative torque generated by the returning blades as well as enhance the positive torque by creating a diversion in the upstream wind towards the forwarding blade during operation. This paper reviews various designs, experiments, and CFD simulations of wind deflectors reported to date. Optimization techniques for VAWTs incorporating wind deflectors are discussed in detail. The main focus of the review was on the installation position and orientation of the deflectors and their potential contribution to increasing the power coefficient. Topics for future study are suggested in the conclusion section of the paper.

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Section: Prior Literaturementioning

confidence: 99%

Recent Development in the Design of Wind Deflectors for Vertical Axis Wind Turbine: A Review

et al. 2021

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“…The DOE sampling source code for Scenario 2 is shown below. The interval for the x and y coordinates of the two accumulated turbines were set to at least four times the turbine diameter (4 D) and defined using the following expression [22].…”

Section: Defining the Design Variable And Objective Functionmentioning

confidence: 99%

On the Development of a Metamodel and Design Support Excel Automation Program for Offshore Wind Farm Layout Optimization

Shin

Baek²,

Rhee

2021

JMSE

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In this study, a metamodel of an optimal arrangement of wind turbines was developed to maximize the energy produced by minimizing the energy loss due to wakes in a limited space when designing a wind farm. Metamodeling or surrogate modeling techniques are often used to replace expensive simulations or physical experiments of engineering problems. Given a training set, you can construct a set of metamodels. This metamodel provided insight into the correlation between wind farm geometry and the corresponding turbine layout (maximizing energy production), thereby optimizing the area of the wind farm required to maximize wind turbine capacity. In addition, a design support Microsoft Excel program was developed to quickly and easily calculate the annual energy production forecast considering the wake effect, as well as to confirm the prediction suitability, the annual energy production (AEP) analysis result of the wind farm, and the calculation result from existing commercial software were compared and verified.

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“…Research on wind farm control for reducing the impact of the wake is attaining importance. The review [6] on wind farm control strategies deals with the following three main concepts: Power derating [7][8][9], yaw misalignment-based wake steering [10][11][12][13] and turbine re-positioning [14,15]. It is noted that the concept of power derating, wake redirection control (WRC), and turbine re-positioning [16] could result in a remarkable rise in power output.…”

Section: Introductionmentioning

confidence: 99%

Maximization of the Power Production of an Offshore Wind Farm

Balakrishnan

Hur

2022

Applied Sciences

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Operating wind turbines together as a wind farm can be more advantageous and economical. As a result, onshore and offshore wind farms are being built at a rapid pace around the world. Wake effects, which have a negative impact on overall wind farm electricity generation, are one of the key concerns in wind farms. This work concentrates on the maximization of power output from wind farms by ameliorating the wake effect. This work introduces a dynamic wind farm controller that adjusts turbines’ yaw angles or axial induction factors following the flow field conditions to maximize the overall power output of the wind farm. This research examines a real-life offshore wind farm in South Korea and the wind farm controller is evaluated in Wind Farm Simulator (WFSim), a control-oriented dynamic wind farm model environment built by Delft University of Technology. The main contribution of this work includes investigating the impact of wind farm control methods on the power production of a wind farm model that simulates a real-life wind farm.

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Wind Farm Layout Optimization Using a Metamodel and EA/PSO Algorithm in Korea Offshore

Cited by 21 publications

References 19 publications

Recent Development in the Design of Wind Deflectors for Vertical Axis Wind Turbine: A Review

Recent Development in the Design of Wind Deflectors for Vertical Axis Wind Turbine: A Review

On the Development of a Metamodel and Design Support Excel Automation Program for Offshore Wind Farm Layout Optimization

Maximization of the Power Production of an Offshore Wind Farm

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