화학공학소재연구정보센터
Renewable Energy, Vol.114, 644-654, 2017
Development and experimental verification of counter-rotating dual rotor/dual generator wind turbine: Generating, yawing and furling
This paper deals with the control techniques for counter-rotating dual rotor/dual generator(CRDRDG) wind turbine and its experimental verifications of the performance in the field. The authors have already proposed the dynamic model and some control techniques in the previous researches, which exploit some features of the CRDRDG structures, and verified the controllers by numerical simulations and lab scale experiments. In this paper, we present experimental results obtained using a full scale (15[kW]) CRDRDG in the field. To perform the field experiments, an integrated control algorithm is proposed. The experimental results show that the integrated control algorithm effectively maximizes the output power of the CRDRDG wind turbine while operating in the region below rated power, and limits the output power while operating in the region above rated power. Furthermore, the experimental data reveals an additional advantage of the counter-rotating dual rotor system. The data shows that the system can lower the tip speed ratio at which Cp curve attains its maximum, almost by half in comparison to the conventional three bladed single rotor system, possibly reducing the noise caused by rotor blades. (C) 2017 Elsevier Ltd. All rights reserved.