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Experimental and simulation investigation of a Savonius vertical axis wind turbine for residential applications: a case study in Indonesia

Mochamad Yusuf Efendi, Nizar Amir, Teguh Budi Prasetyo, Muhammad Yusuf Arya Ramadhan, Misri Gozan, Muhammad Arif Darmawan, Muhammad Idrus Alhamid

2024International Journal of Ambient Energy11 citationsDOI

Abstract

The aim of this study was to investigate several geometric designs to improve the performance of a Savonius vertical axis wind turbine (SVAWT) at low wind speeds. The SVAWT models were numerically tested using ANSYS prediction software to determine the best performance. Furthermore, a SVAWT prototype was experimentally evaluated in subsonic wind tunnels at wind speeds of 1–5 m/s to determine the electrical power produced. The experimental results were used as input parameters for HOMER tools to optimise renewable energy systems and establish the prototype’s techno-economic environmental viability for satisfying the residential demand load. The simulation results showed that the maximum power coefficient obtained was 0.25 for a SVAWT model with a twist angle of 45° at a wind speed of 5 m/s. The experimental results showed that the modified SVAWT produced 494.9 W of electrical power at a wind speed of 5 m/s. The results confirmed that the cost of electrical energy following an initial investment in the optimised renewable energy system configuration (a grid-connected 1-kW SVAWT with a – kW electrical converter and two battery strings) was 0.0963/kWh and 4,425. This setup achieves a 65.8% renewable fraction, cutting CO2 emissions by over 53.71%, fit for residential use.

Topics & Concepts

Vertical axisVertical axis wind turbineTurbineMarine engineeringHorizontal axisWind powerEnvironmental scienceWind speedEngineeringMeteorologyAerospace engineeringPhysicsStructural engineeringElectrical engineeringEngineering drawingWind Energy Research and DevelopmentAerospace Engineering and Energy Systems