Aerodynamic Performance of Vertical-Axis Wind Turbines

Author:

Redchyts Dmytro1ORCID,Portal-Porras Koldo2ORCID,Tarasov Serhii1,Moiseienko Svitlana3,Tuchyna Uliana1,Starun Natalya3,Fernandez-Gamiz Unai2ORCID

Affiliation:

1. Institute of Transport Systems and Technologies, National Academy of Sciences of Ukraine, 49005 Dnipro, Ukraine

2. Nuclear Engineering and Fluid Mechanics Department, University of the Basque Country, UPV/EHU, 01006 Vitoria-Gasteiz, Spain

3. Section of Higher Mathematics and Mathematical Modeling, Department of General Humanities and Natural Sciences, Kherson National Technical University, 73008 Kherson, Ukraine

Abstract

The nonstationary separated incompressible flows around Darrieus and Savonius rotors of vertical-axis wind turbines were investigated through computational simulation using the Reynolds averaged Navier–Stokes equations and Spalart–Allmaras turbulence model. The implicit finite-volume algorithm, the basis of which was artificial compressibility method, was chosen to obtain the numerical solution. The series of computational and physical experiments for Darrieus rotors with varied numbers and shapes of blades were performed. The detailed visualization of the flow was presented. The turbulent flows surrounding the Darrieus and Savonius rotors were studied, and as a part of these investigations, the major phases of vortex progress were identified. For this purpose, three series of computer tests on the aerodynamic and power properties of Savonius rotors with two and three buckets were performed, and their results are also presented. The influence of tip-speed ratio, solidity, and Reynolds numbers on the power coefficients of the Darrieus and Savonius rotors was investigated. It has been demonstrated that increasing Reynolds number from 104 to 106 causes a rise in Darrieus rotors power coefficient from 0.15 up to 0.5. The maximum values of power coefficient are moved away from higher values of tip-speed ratio from 2 to 5 as a result of a decrease in Darrieus rotor solidity from 1.0 to 0.33. The greatest power coefficient for a Savonius rotor with two blades is 0.23 and for a Savonius rotor with three blades is 0.19.

Funder

government of the Basque Country

INVESTIGO program of the Basque Country 2022

Publisher

MDPI AG

Subject

Ocean Engineering,Water Science and Technology,Civil and Structural Engineering

Reference36 articles.

1. (2023, June 05). Electricity Information. Available online: https://www.iea.org.

2. (2023, June 05). Global Wind Report (GWEC). Available online: https://gwec.net/global-wind-report.

3. Darrieus, G.J.M. (1931). Turbine Having Its Rotating Shaft Traverse to the Flow of the Current. (1,835,018), U.S. Patent.

4. Evaluation of different turbine concepts for wind power;Eriksson;Renew. Sustain. Energy Rev.,2008

5. Paraschivoiu, I. (2002). Wind Turbine Design with Emphasis on Darrieus Concept, Polytechnic International Press.

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