Investigations on the wave performance of Savonius turbine operating under initial phase-locked strategy

Li, Fengshen; Yao, Jianjun; Eskilsson, Claes; Pan, Youcheng; Chen, Junhua; Ji, Renwei

doi:10.1063/5.0162835

Physics of Fluids

2023

DOI: 10.1063/5.0162835

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Investigations on the wave performance of Savonius turbine operating under initial phase-locked strategy

Fengshen Li,

Jianjun Yao,

Claes Eskilsson

et al.

Abstract: Savonius hydrokinetic turbines (SHTs), categorized as emerging cyclic-type wave energy converters (WECs), have demonstrated notable potential in achieving elevated energy conversion efficiency and consistent power output. This performance is particularly observed when operating under the initial phase-locked strategy (IPLS), marking a significant advancement in the realm of wave energy harvesting. However, a thorough exploration of the influences stemming from wave conditions and turbine design remains an area… Show more

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Cited by 4 publications

References 35 publications

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A numerical study on the blade–vortex interaction of a two-dimensional Darrieus–Savonius combined vertical axis wind turbine

Pan,

Ferreira,

van Zuijlen

2023

Physics of Fluids

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To investigate power losses of a Darrieus–Savonius combined vertical axis wind turbine (hybrid VAWT) associated with the interaction between blades and wake, it is crucial to understand the flow phenomena around the turbine. This study presents a two-dimensional numerical analysis of vortex dynamics for a hybrid VAWT. The integration of a Savonius rotor in the hybrid VAWT improves self-starting capability but introduces vortices that cause transient load fluctuations on the Darrieus blades. This study attempts to characterize the flow features around the hybrid VAWT and correlate them with the Darrieus blade force variation in one revolution. Results demonstrate the capability of numerical modeling in handling a wide range of operational conditions: the relevant position of Savonius and Darrieus blades (attachment angle γ=0°−90°) and Savonius' tip speed ratio λS (0.2–0.8, varied Savonius' rotational speed). The torque increase in the Darrieus blade in hybrid VAWT (compared to a single Darrieus rotor) due to the appearance of the vortex shedding from the advanced Savonius blade is independent of the attachment angle and tip speed ratio. Apart from start-up and power performances of the hybrid VAWT, the most rapid force fluctuation is identified when the Darrieus blade interacts with Savonius' wake at γ=0° and λS=0.8, which is considered undesirable. Furthermore, attachment angles of 60° and 90° exhibit better power coefficients compared to those of 0° and 30° for the hybrid VAWT. This study contributes to a comprehensive understanding of flow dynamics in hybrid VAWTs, revealing the correlation between torque variation and vortex development.

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A numerical study on the blade–vortex interaction of a two-dimensional Darrieus–Savonius combined vertical axis wind turbine

Pan,

Ferreira,

van Zuijlen

2023

Physics of Fluids

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Analyzing overlap ratio effect on performance of a modified Savonius wind turbine

Hosseini,

Salehi

2023

Physics of Fluids

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Savonius wind turbines are attractive options due to their simple structure, low noise, appropriate torque, and independence from the wind direction. In this study, a new experimental test is designed to analyze SR3345 and SR5050 blade profiles and to understand their effects on the performance of Savonius wind turbines. The fabricated wind turbine is placed in an open circuit wind tunnel with a velocity of 6 m/s. The power and torque coefficients of the turbine are compared with the two profiles considered based on overlap ratios between 0 and 0.3. Despite its increased stability, the results confirm that the central shaft reduces the power coefficient of the turbine. For blade SR3345, the optimum performance occurs at tip speed ratios of less than one, while for blade SR5050, the reasonable performance occurs at higher tip speed ratios. Blades SR3345 and SR5050 achieve the highest power coefficients at overlap ratios of 0 and 0.18 when a central shaft is present.

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Recent advances in marine hydrodynamics

Zheng,

Greaves,

Borthwick

et al. 2024

Physics of Fluids

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Investigations on the wave performance of Savonius turbine operating under initial phase-locked strategy

Cited by 4 publications

References 35 publications

A numerical study on the blade–vortex interaction of a two-dimensional Darrieus–Savonius combined vertical axis wind turbine

A numerical study on the blade–vortex interaction of a two-dimensional Darrieus–Savonius combined vertical axis wind turbine

Analyzing overlap ratio effect on performance of a modified Savonius wind turbine

Recent advances in marine hydrodynamics

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