Experimental evaluation of advanced control strategies for high-blockage cross-flow turbine arrays
Abstract
In river or tidal channels, cross-flow turbines can achieve higher blockage ratios than other turbine variants, and are therefore able to achieve higher efficiencies. Here, we experimentally investigate how array control strategies might further influence the efficiency of a high-blockage dual-rotor cross-flow turbine array. Array performance is evaluated under coordinated constant speed control, uncoordinated torque control, and coordinated intracycle speed control at blockage ratios of 35% - 55%. In contrast to prior work at lower blockage, the evaluated control strategies do not yield significant improvements in efficiency and intracycle control is found to generally reduce array performance. While these results suggest limited benefits to more advanced control strategies at high blockage, this has the benefit of simplifying the system design space for array-level control.