1. Experimental Investigation of a Bidirectional Impulse Turbine for Oscillating Flows at Various Resistive Loads.
- Author
-
Ravikumar, Suchithra, R, Anandanarayanan, George, Aravind, Pattanaik, Biren, Dudhgaonkar, Prasad Vinayak, Jalihal, Purnima, and Samad, Abdus
- Subjects
FLOW coefficient ,WIND turbines ,TURBINES ,AIR flow ,WATER waves ,ELECTRICAL load - Abstract
A bidirectional impulse turbine is a self-rectifying air turbine used in an oscillating water column wave energy converters. Most of the study on bidirectional impulse turbines involves steady-state performance analysis; however, the performance under oscillating airflow conditions is necessary to understand its behavior. The objective of this study is to experimentally analyze an optimized and numerically investigated bidirectional impulse turbine with fixed guide vane subjected to oscillating airflow conditions. A bidirectional airflow test facility developed at Indian Institute of Technology Madras, Chennai, India is employed to determine the aerodynamic characterization of the turbine and the dynamics involved in each of the coupling stages. The test rig consists of a piston chamber assembly, which provides different airflow rates by varying the stroke length (SL) and cycle time. Emphasis is made on the pressure and flow rate coefficients of the turbine, turbine-generator coupling, and power developed for different input conditions. The operating range of the turbine is mapped for four different frequencies and three SLs. Different electrical loading and the power output were analyzed for accelerations and decelerations of inflow and outflow. The preliminary dynamic characterization of the turbine with respect to nondimentionalized pressure coefficient and flow coefficient was determined for inflow and outflow. The power output is found to be in strong correlation with the flow rate and angular rotation of the rotor. The turbine analyzed in the experimental test rig will be proceeded with real sea testing on the Indian coast by the National Institute of Ocean Technology, Chennai, India. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF