Abstract
In order to develop a sustainable economy based on the efficient use of green energy resources, it is necessary to research and innovate systems such as wind turbines. In this paper, a new configuration for vertical axis wind turbines was proposed and numerically analyzed using CFD methods. The concept is based on solving the starting problem of lift-based vertical axis wind turbines. The new concept consists of three blades with different chords, arranged at different radii so that the interaction between the blades is reduced and the operation in the vortex wake is minimal, thus reducing the losses. Through comparing a classic case of an H-Darrieus wind turbine with the new concept, not only were satisfying results regarding the blade-to-blade interaction presented, but an increased efficiency of up to 10% was also observed. Among the presented results is the variation of the vorticity magnitude at different positions of the blades, thus, the concept’s blade-to-blade interaction is reduced. Conclusions drawn after the investigation are in favor of the proposed geometry and the concept should be pursued further.
Highlights
IntroductionA new configuration for vertical axis wind turbines was proposed and numerically analyzed using
Romanian Research and Development Institute for Gas Turbines COMOTI, 220D Iuliu Maniu Bd., Abstract: In order to develop a sustainable economy based on the efficient use of green energy resources, it is necessary to research and innovate systems such as wind turbines
To draw a conclusion regarding the self-starting behavior of the studied wind turbines from the current numerical investigation, one must examine the moment coefficient for the low values of the tip speed ratio
Summary
A new configuration for vertical axis wind turbines was proposed and numerically analyzed using. Through comparing a classic case of an H-Darrieus wind turbine with the new concept, were satisfying results regarding the blade-to-blade interaction presented, but an increased efficiency of up to 10% was observed. For the purpose of supporting and encouraging climate action, the European Union generated several financial tools in the past years, with the aim to stimulate the research and development of innovative systems that will help mitigate pollution. In order to efficiently extract energy from such sources it is necessary to develop task-oriented systems designed for each type of application
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