# Numerical study on performance of a vertical axis wind rotor with S-shaped blades

**Authors:** Lei Song, Ji Wang, Shibo Wang, Zongxiao Yang, Jianxin Su

PMC · DOI: 10.1371/journal.pone.0322953 · PLOS One · 2025-05-27

## TL;DR

A new S-shaped wind rotor is proposed and studied to improve wind energy efficiency and stability compared to traditional Savonius rotors.

## Contribution

A novel S-shaped blade design is introduced and evaluated for improved aerodynamic performance and reduced vibration.

## Key findings

- The S-shaped rotor has a higher average static torque coefficient (0.291) than traditional Savonius rotors (0.222).
- The novel rotor shows lower static vibration amplitude (0.375) compared to 0.709 in Savonius rotors.
- The S-shaped design reduces flow field blocking and improves wind energy utilization.

## Abstract

Traditional Savonius wind rotor has simple structure and can operate in any wind direction. However, its aerodynamic efficiency is lower than other types. A novel S-shaped wind rotor with three blades is proposed in order to improve the aerodynamic performance. The blade of the rotor is composed of two opposing convex circular arcs and its shape likes an ‘S’. The flow characteristics of the rotor are studied and analyzed by computational fluid dynamics (CFD) numerical simulation method. The steady and transient performances are studied using SST k-ω model and sliding mesh method, and are compared with that of traditional Savonius rotors. The results show that the average static torque coefficient of the rotor is 0.291, which is higher than the 0.222 of the Savonius rotor. The static vibration amplitude of the rotor is 0.375, which is lower than 0.709 of the Savonius rotor. The maximum power coefficient of the rotor is 0.228, which is also higher than the 0.226 of the Savonius rotor. The dynamic vibration amplitude of the novel rotor is 0.183, which is lower than the 0.492 of the Savonius rotor. The flow field analyses show that structure of the S-shaped blades can smooth the flow field and reduce the blocking effect in the overlap area. The study indicates that the proposed navel rotor can not only overcome the problems of sharp change in the internal flow field of traditional Savonius rotors, but also provide better operating stability and higher wind energy utilization.

## Full-text entities

- **Genes:** SST (somatostatin) [NCBI Gene 6750] {aka SMST, SST1}

## Full text

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## Figures

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## References

41 references — full list in the complete paper: https://tomesphere.com/paper/PMC12111525/full.md

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Source: https://tomesphere.com/paper/PMC12111525