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Analytical wake models for crosswind kites Mojtaba Kheiri, Concordia University
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0
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276
|
June 24, 2022
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High-fidelity Tether Models for Airborne Wind Energy Michael McWilliam, DTU
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0
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249
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June 24, 2022
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The ICM-autoKite Project: Developing an automated kite propulsion system for the KITE GAS/FUEL SHIP and economic green hydrogen production Klaus Heudorfer, University of Stuttgart
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0
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219
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June 24, 2022
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Drivetrain concepts for pumping airborne wind energy systems Rishikesh Joshi, TU Delft
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0
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258
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June 24, 2022
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Non-intrusive modeling of an AWE generator's bidirectional DC/DC converter Joey Naranjo, Kitenergy Srl
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0
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238
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June 24, 2022
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Optimal flight path for Fly-Gen Airborne Wind Energy Systems Filippo Trevisi, Politecnico di Milano
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0
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231
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June 24, 2022
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Some modelling and control aspects of rotational starting and landing Maximilian Ranneberg, Enerkite GmbH
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0
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248
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June 24, 2022
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Julia Kite Power Tools Uwe Fechner, Aenarete - Smart Wind
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0
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237
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June 24, 2022
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C++ Based Systems Engineering Framework as a Key Approach Towards Efficient, Reliable, and Autonomous Flying Wind Turbine Products Florian Bauer, kiteKRAFT GmbH
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0
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202
|
June 24, 2022
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Concepts for Obstruction Marking and Demand-Oriented Obstruction Avoidance to Ensure a Safe Operation of AWE Systems Nicole Allgaier, Enerkite GmbH
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0
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190
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June 24, 2022
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SkyPower100 - Realization of a fully automatic AWES (100 kW) Patrick Junge, Skysails Power GmbH
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0
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274
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June 24, 2022
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Rotational Launch and Landing: Flight tests at EnerKite Christian Gebhardt, Enerkite GmbH
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0
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242
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June 24, 2022
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Maximizing visibility of AWE systems for airspace users Corey Houle, TwingTec AG
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0
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212
|
June 24, 2022
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Status of UC3M Testbed for the Aerodynamic Characterization of Kites Applied to AWES Francisco De Los Ríos-Navarrete, Universidad Carlos III de Madrid
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0
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225
|
June 24, 2022
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Energy Mix and Security Benefits of Airborne Wind Energy for Net Zero Will Kennedy Scott, Swift Airgen Ltd.
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0
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234
|
June 24, 2022
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A reference economic model for airborne wind energy systems Rishikesh Joshi, TU Delft
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0
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247
|
June 24, 2022
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Life-Cycle Analysis of an Airborne Wind Energy System Kristian Petrick, Airborne Wind Europe
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0
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214
|
June 24, 2022
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Airborne Wind Energy for Sea Water Desalination: A Techno-Economic Study Mahdi E. Salari, University College Cork
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0
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241
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June 24, 2022
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NREL Airborne Wind Energy Workshop and Technical Report 2021 Jochem Weber, National Renewable Energy Laboratory
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0
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229
|
June 24, 2022
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Optimal reeling control for pumping airborne wind energy systems without wind speed feedback Lorenzo Fagiano, Politecnico di Milano
|
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0
|
246
|
June 24, 2022
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Multidisciplinary design and optimization of fixed-wing AWESs Filippo Trevisi, Politecnico di Milano
|
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0
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207
|
June 24, 2022
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Power Losses Analysis of AWESs via a Novel Quasi-Analytical Dynamic Model Gregorio Pasquinelli, Politecnico di Milano
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0
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229
|
June 24, 2022
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Power Smoothing in Utility-Scale Airborne Wind Energy Trajectory Optimization Jochem De Schutter, University of Freiburg
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0
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199
|
June 24, 2022
|
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Development of an Aeroelastic Simulation Framework for Leading Edge Inflatable Kites John Watchorn, TU Delft
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0
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208
|
June 24, 2022
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|
Economic Potential of applying Circular Economy to AWE Franco Vernazza, Draco Energia
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0
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248
|
June 24, 2022
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AirWing, a self-regulating control system for kites Ingo Mewes, Hochschule für Schauspielkunst "Ernst Busch" Berlin
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0
|
266
|
June 24, 2022
|
|
Multi element airfoil design for an AWE rigid kite Agustí Porta Ko, Kitemill and TU Delft
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0
|
244
|
June 24, 2022
|
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Production Cycle Optimization for Pumping Airborne Wind Energy Rodolfo Mathis, Politecnico di Milano
|
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0
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246
|
June 24, 2022
|
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An Efficient Optimal Control Method for Airborne Wind Energy Systems with a Large Number of Slowly Changing Subcycles Jakob Harzer, University of Freiburg
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0
|
218
|
June 24, 2022
|
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Fatigue Life Optimized Electromechanical Tether Design for Multimegawatt AWE Stefan Neuhold, swiss inventix GmbH
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0
|
261
|
June 24, 2022
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