Optimal periodic control of power harvesting tethered airplanes: How to fly fast without wind and without propellor?

This paper proposes reversed pumping as a strategy to keep tethered kites airborne in a wind-free condition without any on-board propulsion. In the context of kite power, it is shown to be a necessary addition to a rotational startup scheme. The enhanced scheme ultimately allows for injection into power harvesting orbits at high altitude, in case no wind is present near ground level. The need for reversed pumping is advocated with scaling laws, and is demonstrated in simulation by solving a proposed open-loop periodic optimal control problem. The obtained periodic orbits can be used as reference for feedback control.

[1]  Ivan Argatov,et al.  Energy conversion efficiency of the pumping kite wind generator , 2010 .

[2]  Moritz Diehl,et al.  Real-Time Optimization for Large Scale Nonlinear Processes , 2001 .

[3]  Moritz Diehl,et al.  ACADO toolkit—An open‐source framework for automatic control and dynamic optimization , 2011 .

[4]  Lorenzo Fagiano,et al.  High Altitude Wind Energy Generation Using Controlled Power Kites , 2010, IEEE Transactions on Control Systems Technology.

[5]  L Fagiano,et al.  Control as a key technology for a radical innovation in wind energy generation , 2010, Proceedings of the 2010 American Control Conference.

[6]  Moritz Diehl,et al.  Nonlinear MPC of kites under varying wind conditions for a new class of large‐scale wind power generators , 2007 .

[7]  P. Williams,et al.  Optimal Cross-Wind Towing and Power Generation with Tethered Kites , 2007 .

[8]  M. L. Loyd,et al.  Crosswind kite power (for large-scale wind power production) , 1980 .

[9]  H. Bock,et al.  A Multiple Shooting Algorithm for Direct Solution of Optimal Control Problems , 1984 .

[10]  Erik Vance Wind power: High hopes , 2009, Nature.

[11]  Moritz Diehl,et al.  Windenergienutzung mit schnell fliegenden Flugdrachen: eine Herausforderung für die Optimierung und RegelungWind Power via Fast Flying Kites: a Challenge for Optimization and Control , 2009, Autom..

[12]  M. Canale,et al.  KiteGen project: control as key technology for a quantum leap in wind energy generators , 2007, 2007 American Control Conference.