The Behavior of Vertical Axis Water Turbine With Flexible Blades: Self-Start, Ventilation, and Cavitation

Author:

Foust Emine Celik1

Affiliation:

1. United States Military Academy Department of Civil and Mechanical Engineering, , Mahan Hall, Bldg 752, West Point, NY 10996

Abstract

Abstract Three-bladed Darrieus-type vertical axis water turbine is a promising solution for producing electricity with minimal impact on the environment. Although considered a viable option, straight-bladed Darriues-type turbines have not been used commonly due to various operational issues; self-start and stall at low water speeds while ventilation and cavitation are limiting at high water speeds. In this study, the use of flexible blades with an aspect ratio of 2.21 is investigated at water velocities of 0.34, 0.51, 0.68, and 0.85 m/s experimentally. A stiffer turbine that has an 85–95 Shore A hardness blade starts to rotate at 0.51 m/s flow velocity. The more flexible turbine that has a 75–85 Shore A hardness blade starts to rotate at lower water velocities and experiences low rotational speeds resulting in an improved self-start. However, low rotation speed will cause a reduction in the coefficient of performance (Cp). High-speed imaging of the flow field also shows that a low tip speed ratio (TSR) helps to prevent the occurrence of ventilation and cavitation for the turbine with 75–85 Shore A hardness blades.

Publisher

ASME International

Reference16 articles.

1. Anyi, M. , 2013, “Water Current Energy for Remote Community: Design and Testing of a Clog-Free Horizontal Axis Hydrokinetic Turbine System,” Ph.D. thesis, The University of South Australia.

2. Variable Pitch Darrieus Water Turbines;Kirke;J. Fluid Sci. Technol.,2008

3. Performance Characterization of a Cross-Flow Hydrokinetic Turbine in Sheared Inflow;Forbush;Int. Mar. Energy J.,2016

4. Hydrodynamic Effects of Hydrokinetic Turbine Deployment in an Irrigation Canal;Gunawan,2015

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