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

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

doi:10.1080/01430750.2024.2331241

International Journal of Ambient Energy

2024

DOI: 10.1080/01430750.2024.2331241

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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 Prasetyo

et al.

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Cited by 4 publications

References 76 publications

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Multi-objective optimization of battery swapping station to power up mobile and stationary loads

Gull,

Khalid,

Arshad

2024

Applied Energy

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Multi-objective optimization of battery swapping station to power up mobile and stationary loads

Gull,

Khalid,

Arshad

2024

Applied Energy

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Enhancing aerodynamic efficiency: shape modification of airfoils

Seifi Davari,

Mihaela Botez,

Seify Davari

et al. 2024

International Journal of Ambient Energy

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Determining Payback Period and Comparing Two Small-Scale Vertical Axis Wind Turbines Installed at the Top of Residential Buildings

Saleh,

Austin,

Carpino

et al. 2024

Int. J. Archit. Eng. Technol.

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In recent years, residential buildings have seen a notable increase in energy consumption. To address this, it is crucial for researchers to invest in renewable energy technologies, aiming to develop highly sustainable and nearly-zero energy buildings. Many countries are started to commit to this goal, seeking to phase out fossil fuels due to their harmful environmental effects. Wind energy stands out as a promising renewable resource, especially in areas with strong wind patterns. This study focuses on a case in Karaburun, Izmir province, Türkiye, where annual wind speeds range from 6 to 8 m/s and evaluates the performance of two types of small-scale Vertical Axis Wind Turbines (VAWTs) in reducing energy consumption in a three-story residential building, along with associated costs. Utilizing advanced simulation tools like ANSYS Fluent and DesignBuilder Software, the study examines Ice-Wind VAWTs and Savonius VAWTs. The findings reveal that installing 15 Ice-Wind VAWTs on the building's roof can reduce energy consumption by approximately 22.5%, with each turbine costing about $2000 and a payback period of around 14.57 years. Conversely, using 15 Savonius VAWTs can reduce energy consumption by 36%, with each turbine costing about $2300 and a payback period of around 8.93 years. These results indicate that the Savonius turbine offers a faster return on investment compared to the Ice-Wind turbine under the specified conditions. Overall, this study highlights the significant benefits and cost implications of integrating renewable energy solutions like VAWTs into residential buildings.

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

Cited by 4 publications

References 76 publications

Multi-objective optimization of battery swapping station to power up mobile and stationary loads

Multi-objective optimization of battery swapping station to power up mobile and stationary loads

Enhancing aerodynamic efficiency: shape modification of airfoils

Determining Payback Period and Comparing Two Small-Scale Vertical Axis Wind Turbines Installed at the Top of Residential Buildings

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