Author:
Tohamy Youssef E.,Giger Urs,Marten David,Schulte Horst
Abstract
Abstract
This paper presents a two-level control scheme for multi-rotor wind turbines. The first subordinate decentralized controller replaces the active pitch control with oversized generators that achieve the power limitation objective. In combination with this, the second higher-level controller mitigates the mechanical load on the main tower by adjusting the thrust forces acting on the side turbines through coordinated local torque control. The results proved that the decentralized controller managed to replace the pitch control by achieving the same power curve, and the load mitigation controller tended to equate the thrusts on both turbines, which mitigates the mechanical loads on the turbine tower. A high-fidelity QBlade model was developed and showed consistent results to the simplified model in SIMULINK.
Reference8 articles.
1. Multi-Rotors: A Solution to 20 MW and Beyond?;Jamieson;Energy Procedia,2012
2. Maintenance costs of a pitch system of a wind turbine;Carvalho,2013
3. Wind energy conversion with a variable-ratio gearbox: design and analysis;Hall;Renewable Energy,2011
4. Supplementing wind turbine pitch control with a trailing edge flap smart rotor;Plumley,2014
5. Power limitation at high wind speed for a variable speed fixed pitch wind turbine using close-loop scalar control;Rosmin,2010