Title :
Modeling and analysis of an innovative waste heat recovery system for helicopters
Author :
Christidis, Georgios C. ; Karatzaferis, Ioannis C. ; Sautreuil, Matthieu ; Tatakis, E.C. ; Papanikolaou, N.P.
Author_Institution :
Electr. & Comput. Eng. Dept., Univ. of PATRAS, Rion-Patras, Greece
Abstract :
The efficiency of helicopters is limited due to the high power losses of combustion engines, a fraction of which can be recovered and provided to the electrical bus by exploiting the heat found in the exhaust gases and through power electronics converters. The first system recovers energy through a thermoelectric generator, whereas the second through a permanent magnet generator rotated by a steam turbine. A third power converter, connected to a supercapacitor bank, compensates the peak currents demanded by the loads. Since extensive simulations have to be run in order to validate the feasibility of those systems, average models of the power converters are derived, and their accuracy is examined. Finally, based on those average models, the developed control strategy is examined.
Keywords :
aircraft power systems; electric vehicles; heat recovery; helicopters; permanent magnet generators; power convertors; supercapacitors; thermoelectric conversion; waste heat; control strategy; electric aircraft; electrical bus; exhaust gases; helicopters; high power losses; innovative waste heat recovery system; internal combustion engines; permanent magnet generator; power electronics converters; steam turbine; supercapacitor bank; thermoelectric generator; Generators; Heat recovery; Helicopters; Inverters; Mathematical model; Voltage control; AC machine; DC grid; Energy savings; active filter; aerospace; control methods for energy systems; modeling; regenerative power; simulation; supercapacitor; thermoelectric energy;
Conference_Titel :
Power Electronics and Applications (EPE), 2013 15th European Conference on
Conference_Location :
Lille
DOI :
10.1109/EPE.2013.6634603
