Geometrical optimization of a swirling Savonius wind turbine using an open jet wind tun

• Main Authors: Abdullah Al-Faruk, Ahmad Sharifian
• Format: Article
• Language: English
• Published: Elsevier 2016-09-01
• Series: Alexandria Engineering Journal
• Subjects: Wind energy; Savonius wind turbine; Swirling flow; Power coefficient; Split channels
• Online Access: http://www.sciencedirect.com/science/article/pii/S1110016816301776

It has been suggested that waste heats or naturally available heat sources can be utilized to produce swirling flow by a design similar to that of split channels which is currently used to initiate fire whirls in laboratories. The new design combines the conventional Savonius wind turbine and split channel mechanisms. Previous computational and preliminary experimental works indicate a performance improvement in the new design (named as swirling Savonius turbine) compared to the conventional Savonius design. In this study, wind tunnel experiments have been carried out to optimize the swirling Savonius turbine geometry in terms of maximum power coefficient by considering several design parameters. The results indicate that the blade overlap ratio, hot air inlet diameter and the condition of the top end plate have significant influence on power and torque coefficients, while a larger aspect ratio and closed top end plate have some favourable effects on the performance. The optimum configuration has been tested in four different wind velocities to determine its influence on the performance, and power coefficients were found to be higher in high wind velocities. The performance comparison of optimum configuration with conventional Savonius rotor showed an increase of 24.12% in the coefficient of power.