BACKLASH FAULT SUPPRESSION USING LQ OPTIMAL CONTROL BASED RST CONTROLLERS IN WIND TURBINE SYSTEMS USING BOND GRAPHS AND MATLAB/SIMULINK
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Date
2021
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acta mechanica et automatica
Abstract
The presence of backlash in wind turbines is a source of limitations as it introduces nonlinearities that reduce their efficiency in speed/torque control which affect the performance of the power quality. Because of production tolerances during rotation, the teeth contact is lost for a small angle; until it is re-established, it produces a backlash phenomenon. The desire to eliminate this phenomenon is often hard to realise due to the nonlinear dynamic behaviour, which arises with the presence of backlash fault in a system. Therefore, the goal of this study is to develop an LQ optimal control structure in a form of an R-S-T controller in order to reduce the disturbing torque transmitted inside the dead zone of a gearbox in the wind turbine system. The actual system is also developed to be used as a demonstration model at lectures or presentations. The efficacy of the proposed control is illustrated via simulations
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acta mechanica et automatica, vol.15 no.3 (2021)
DOI 10.2478/ama-2021-0020