GC53C-1214
Using Delft3D to Simulate Current Energy Conversion

Friday, 18 December 2015
Poster Hall (Moscone South)
Scott C James1, Chris Chartrand2, Jesse Roberts2 and Water Power Technologies, (1)Baylor University, Departments of Geology and Mechanical Engineering, Waco, TX, United States, (2)Sandia National Laboratories, Albequerque, NM, United States
Abstract:
As public concern with renewable energy increases, current energy conversion (CEC) technology is being developed to optimize energy output and minimize environmental impact. CEC turbines generate energy from tidal and current systems and create wakes that interact with turbines located downstream of a device. The placement of devices can greatly influence power generation and structural reliability. CECs can also alter the ecosystem process surrounding the turbines, such as flow regimes, sediment dynamics, and water quality. Software is needed to investigate specific CEC sites to simulate power generation and hydrodynamic responses of a flow through a CEC turbine array. This work validates Delft3D against several flume experiments by simulating the power generation and hydrodynamic response of flow through a turbine or actuator disc(s). Model parameters are then calibrated against these data sets to reproduce momentum removal and wake recovery data with 3-D flow simulations. Simulated wake profiles and turbulence intensities compare favorably to the experimental data and demonstrate the utility and accuracy of a fast-running tool for future siting and analysis of CEC arrays in complex domains.