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Airborne Wind Energy

Aus der Reihe Green Energy and Technology
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189,99 € UVP 213,99 €

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Beschreibung

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

15.10.2013

Abbildungen

XXIII, 337 illus., 161 illus. in color., schwarz-weiss Illustrationen, farbige Illustrationen

Herausgeber

Uwe Ahrens + weitere

Verlag

Springer Berlin

Seitenzahl

611

Maße (L/B/H)

24,1/16/4 cm

Gewicht

1074 g

Auflage

2014

Sprache

Englisch

ISBN

978-3-642-39964-0

Beschreibung

Portrait

Uwe Ahrens graduated in Aerospace Engineering from Technical University Berlin. In 1989 he founded the medical company aap Implantate AG for which he acted as long-time CEO. Having established a patent basis for a rail-based Airborne Wind Energy conversion technology, Ahrens founded NTS Energy Systems in 2009. In 2012, the company successfully demonstrated the core functionality on a linear test section.

Moritz Diehl studied physics and mathematics at the universities of Heidelberg and Cambridge. In 2001, he received a PhD degree for his research on Real Time Optimization for Large Scale Nonlinear Processes, at the Interdisciplinary Center for Scientific Computing (IWR) of Heidelberg University. Since 2006, Diehl is a professor at the Electrical Engineering Department (ESAT) of Leuven University. He is the Principal Investigator of the Optimization in Engineering Center (OPTEC) and of the ERC Project HIGHWIND. Diehl's research focus is on control and optimisation of nonlinear constrained systems, with a focus on Airborne Wind Energy applications.

Roland Schmehl graduated in Mechanical Engineering from Karlsruhe University. In 2003 he received a PhD degree for his research on computational modelling of multiphase flows and liquid droplet dynamics. Following a post-doctoral research fellowship at the European Space Agency (ESA), he worked as software architect for TNO Automotive Safety Solutions, developing fluid dynamic simulation methods for airbag deployment. In 2009, he accepted his current position as head of the kite power group at Delft University of Technology. Next to leading a pioneering development team, his research focus is on the computational modelling of inflatable membrane wings. Schmehl is associate professor at the faculty for Aerospace Engineering.

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

15.10.2013

Abbildungen

XXIII, 337 illus., 161 illus. in color., schwarz-weiss Illustrationen, farbige Illustrationen

Herausgeber

Verlag

Springer Berlin

Seitenzahl

611

Maße (L/B/H)

24,1/16/4 cm

Gewicht

1074 g

Auflage

2014

Sprache

Englisch

ISBN

978-3-642-39964-0

Herstelleradresse

Springer-Verlag GmbH
Tiergartenstr. 17
69121 Heidelberg
DE

Email: ProductSafety@springernature.com

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  • Produktbild: Airborne Wind Energy
  • Produktbild: Airborne Wind Energy

  • Part I Fundamentals: Airborne Wind Energy: Basic Concepts and Physical Foundations.- Traction power generation with tethered wings.- Pumping Cycle Kite Power.- Efficiency of traction power conversion based on crosswind motion.- An Introduction to Meteorology for Airborne Wind.- Kites: Pioneers of Atmospheric.- Financing Strategies for Airborne Wind Energy.-Part II System modeling, Optimization and Control: Theory and Experimental Validation of a Simple Comprehensible.- On Modeling, Filtering and Automatic Control of Flexible Tethered.- Wings for Airborne Wind.- Modeling of Airborne Wind Energy Systems in Natural Coordinates.- Numerical Trajectory Optimization for Airborne Wind Energy.- Model Predictive Control of Rigid-Airfoil Airborne Wind Energy Systems.- Airborne Wind Energy Conversion Systems with Ultra High Speed.- Model-Based Efficiency Analysis of Wind Power Conversion by a Pumping Kite Power.- Economics of Pumping Kite.- Part III Analysis of Flexible Kite Dynamics: Aeroelastic Simulation of Flexible Membrane Wings based on Multibody System.- Nonlinear Aeroelasticity, Flight Dynamics and Control of a Flexible Membrane Traction Kite.- Simulation Based Wing Design for Kite Power.- Estimation of the lift-to-drag ratio using the lifting line method: application to a Leading Edge Inflatable.- Part IV Implemented Concepts: Application of an Automated Kite System for Ship Propulsion and Power Generation.- Design and Testing of a 60 kW Yo-Yo Airborne Wind Energy Generator.- Modeling and Testing of a Kite-Powered Water Pump.- Design and Experimental Characterization of a Pumping Kite Power System.- Development of a Three-Line Ground-Actuated Airborne Wind Energy.- Combining kites and rail technology into a traction based Airborne Wind Energy plant.- Description and Preliminary Test Results of a 6 Degrees of Freedom Rigid Wing Pumping System.- An experimental test setup for advanced estimation and control of an airborne wind energy system Analysis and Flight Test Validation of High Performance Airborne Wind Turbines.- High Altitude Wind Energy from a hybrid lighter than air platform in a pumping cycle with aerodynamic lift from the Magnus.- Lighter-Than-Air Wind Energy Systems.- Part V Component Design.- Ram-air Wing Design Considerations for Airborne Wind Energy.- Conceptual Design of Textile Kites Considering Overall System Performance.- Airborne Wind Energy Tethers with High-Modulus Polyethylene Fibers.- Non-reversing Generators in a Novel Design for Pumping Mode Airborne Wind Energy Farm.- Software System Architecture for Control of Tethered Kites.