Searched for: author:"Schmehl%2C%5C R."
(1 - 20 of 27)

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Schmehl, R. (author)
journal article 2012
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Schmehl, R. (author)
De wind hoog boven de grond wordt gezien als een potentieel zeer grote bron van duurzame energie. Conventionele windturbines met hun starre toren zullen nooit in staat zijn deze bron ten volle te benutten. Eén van de mogelijke oplossingen om deze wind op grote hoogte te benutten, is het gebruik van kite power systemen. De kite power...
journal article 2011
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Schmehl, R. (author)
Der Großteil atmosphärischer Windenergie ist mit normalen Turbinen unerreichbar. Schnell fliegende Lenkdrachen könnten sie ernten.
journal article 2011
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Schmehl, R. (author)
conference paper 2011
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Schmehl, R. (author)
conference paper 2016
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Schmehl, R. (author)
Airborne wind energy is an emerging field in the renewable energy technologies that aims to replace the use of fossil fuels for energy production on an economical basis. A characteristic feature of the various concepts that are currently pursued is the use of tethered flying devices to access wind energy at higher altitudes where the wind is...
book 2015
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Franca, B. (author), Schmehl, R. (author)
Poster presented at International Airborne Wind Energy Conference (AWEC), 2015.
conference paper 2015
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Fechner, U. (author), Schmehl, R. (author)
Kite power technology is a novel solution to harvest wind energy from altitudes that can not be reached by conventional wind turbines. The use of a lightweight but strong tether in place of an expensive tower provides an additional cost advantage, next to the higher capacity factor. This paper describes a method to estimate the wind velocity at...
journal article 2014
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Fechner, U. (author), Schmehl, R. (author)
conference paper 2015
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Branca, B. (author), Schmehl, R. (author)
conference paper 2015
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Leuthold, R. (author), De Oliveira, G. (author), Schmehl, R. (author)
conference paper 2015
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Berens, J. (author), Tiso, P. (author), Schmehl, R. (author)
conference paper 2015
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Schmehl, R. (author), Maier, G. (author), Wittig, S. (author)
The two phase flow in the premix duct of a LPP combustor is computed using a Lagrangian droplet tracking method. To reproduce the characteristic spray structure of an air-assisted pressure-swirl atomizer, a sheet spray model is de-rived from measured sheet parameters and combined with an advanced concept for modeling secondary atomization...
conference paper 2000
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Schmehl, R. (author), Van der Vlugt, R. (author)
conference paper 2015
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Fechner, U. (author), van der Vlugt, R. (author), Schmehl, R. (author), Ockels, W.J. (author)
Seminar organized by Delft University Wind energy research institute for European Academy of Wind Energy
conference paper 2011
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Rajan, N.K. (author), Vire, A. (author), Schmehl, R. (author), Van Bussel, G.J.W. (author)
A novel fluid-structure interaction (FSI) simulation framework is being developed at the KitePower group of TU Delft. Developing an FSI simulator suitable for the kite problem has to take into account the following factors.
conference paper 2015
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Rajan, N.K. (author), Viré, A. (author), Schmehl, R. (author), Van Bussel, G.J.W. (author)
conference paper 2015
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Faggiani, P. (author), Schmehl, R. (author), Van der Vlugt, R. (author)
conference paper 2015
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Leuthold, R. (author), De Oliveira Andrade, G.L. (author), Schmehl, R. (author)
conference paper 2015
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Schmehl, R. (author), Klose, G. (author), Maier, G. (author), Wittig, S. (author)
Representing two different conceptual approaches, either Eulerian continuum models or Lagrangian particle models are commonly applied for the numerical description of dispersed two phase flows. Taking advantage of the positive features inherent to each model, a combination approach is presented in this study for the efficient computation of...
conference paper 1998
Searched for: author:"Schmehl%2C%5C R."
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