Achieving ultralight, rigid, durable, low-cost composite AWE kites with efficient design and manufacturing Florian Breipohl, Enerkite GmbH
|
|
1
|
373
|
August 18, 2022
|
Circular AWE Parks with High Ground Area Power Density Moritz Diehl, University of Freiburg
|
|
1
|
268
|
July 1, 2022
|
Fast Aeroelastic Model of a Leading-Edge Inflatable Kite Uri Cayon, TU Delft and DTU
|
|
0
|
233
|
June 24, 2022
|
Open-source parametric FE meshing tool for fixed-wing AWE kites Dylan Eijkelhof, TU Delft
|
|
0
|
219
|
June 24, 2022
|
Dynamics of tethered airborne wind energy systems Amar Fayyad K. Akberali, Concordia University
|
|
0
|
288
|
June 24, 2022
|
Design of an Airborne Wind Energy System for Mars Habitats Mario Rodriguez, TU Delft and DTU
|
|
0
|
258
|
June 24, 2022
|
Swinging Motion of a Flexible Membrane Kite with Suspended Control Unit During Turning Maneuvers Mark Schelbergen, TU Delft
|
|
0
|
266
|
June 24, 2022
|
Ground Station Control of an Airborne Wind Energy System in a Complete Operational Cycle Ali Arshad Uppal, Universidade do Porto
|
|
0
|
272
|
June 24, 2022
|
KGM1 - A different approach to the Airborne Wind Energy technology Marco Ghivarello, GHIVA Prog. CAD
|
|
0
|
230
|
June 24, 2022
|
Annual Wind Resource Assessment for an Airborne Wind Energy System Anıl Edgar Uriel Solís-Magallanes, Metropolitan Polytechnic University of Hidalgo
|
|
0
|
260
|
June 24, 2022
|
Airborne Wind Energy Farm Layout and Optimization Luís A.C. Roque, Universidade do Porto
|
|
0
|
240
|
June 24, 2022
|
Predictive Control of a Morphing Airborne Wind Energy System Jacob B. Fine, North Carolina State University
|
|
0
|
221
|
June 24, 2022
|
On control of phase transitions in Airborne Wind Energy Systems Nicolas Kessler, Politecnico di Milano
|
|
0
|
208
|
June 24, 2022
|
Development of an Aeroelastic Simulation Framework for Leading Edge Inflatable Kites John Watchorn, TU Delft
|
|
0
|
183
|
June 24, 2022
|
Economic Potential of applying Circular Economy to AWE Franco Vernazza, Draco Energia
|
|
0
|
217
|
June 24, 2022
|
AirWing, a self-regulating control system for kites Ingo Mewes, Hochschule für Schauspielkunst "Ernst Busch" Berlin
|
|
0
|
236
|
June 24, 2022
|
Multi element airfoil design for an AWE rigid kite Agustí Porta Ko, Kitemill and TU Delft
|
|
0
|
208
|
June 24, 2022
|
Production Cycle Optimization for Pumping Airborne Wind Energy Rodolfo Mathis, Politecnico di Milano
|
|
0
|
217
|
June 24, 2022
|
An Efficient Optimal Control Method for Airborne Wind Energy Systems with a Large Number of Slowly Changing Subcycles Jakob Harzer, University of Freiburg
|
|
0
|
190
|
June 24, 2022
|
Fatigue Life Optimized Electromechanical Tether Design for Multimegawatt AWE Stefan Neuhold, swiss inventix GmbH
|
|
0
|
229
|
June 24, 2022
|
Modelling and Sizing of a Hybrid Power Plant using Airborne Wind Energy Systems Sweder Reuchlin, TU Delft
|
|
0
|
210
|
June 24, 2022
|
Low and High Fidelity Aerodynamic Simulations for Airborne Wind Energy Box Wings Gabriel Buendia, TU Delft
|
|
0
|
221
|
June 24, 2022
|
Modelling aeroelastic deformation of inflatable membrane kites Jelle Poland, TU Delft
|
|
0
|
222
|
June 24, 2022
|
Using the Lidar-validated hindcast model NORA3 for resource estimates of airborne wind energy systems Jan Markus Diezel, University of Bergen
|
|
0
|
178
|
June 24, 2022
|
Modeling and Control of Airborne Wind Energy Systems using Prandtl lifting line and actuator line/curve models Jean-Baptiste Crismer, Université catholique de Louvain
|
|
0
|
168
|
June 24, 2022
|
Magnus Effect Kites: Optimal Reel-Out Speeds for Cross-Wind Power Production and Early Simulation & Test Results Garrett Smith, Wind Fisher SAS
|
|
0
|
248
|
June 24, 2022
|