Print Email Facebook Twitter Path Optimization of a Pumping Kite System Title Path Optimization of a Pumping Kite System Author Jerez Venegas, Marcos (TU Delft Aerospace Engineering; TU Delft Flow Physics and Technology) Contributor Schmehl, R. (mentor) Gaunaa, M (mentor) Degree granting institution Delft University of TechnologyTechnical University of Denmark Programme European Wind Energy Masters (EWEM) | Atmospheric Physics Project European Wind Energy Master Date 2017-07-21 Abstract Airborne wind energy is a new research field that aims to harvest winds at high altitudes. The pumping kite concept investigated at the Delft University of Technology is based on leading edge inflatable kites that divide a generation cycle into three phases: traction, retraction, and transition. This research project aims to optimise the trajectory flown by the kite to increase the cost-competitiveness of the system. Thus, the complete system was simulated, and a sensitivity analysis was conducted. The results show that there is an area in the wind window that maximises the power production of the cycle. This area is defined by the wind speed, the shape of the figure, and the reel in/out force. Based on the findings, an algorithm that seeks the optimal path during the flight was developed. In the case study, the algorithm led to a 100% increase in cycle power and a 16% increase in the average traction power. Subject AirborneOptimizationPathPumping CycleKiteWindenergy To reference this document use: http://resolver.tudelft.nl/uuid:0a67e3e9-358a-494f-a553-b65ed9f3c8c6 Part of collection Student theses Document type master thesis Rights © 2017 Marcos Jerez Venegas Files PDF Thesis_MS_Jerez_Venegas_TUD.pdf 15.2 MB Close viewer /islandora/object/uuid:0a67e3e9-358a-494f-a553-b65ed9f3c8c6/datastream/OBJ/view