Current parabolic trough collector development mainly aims at cost reduction. Within the project ConSol the goal was to reduce material and production costs by using high-performance concrete for the parabola shell itself and also for part of the tracking system. A high amount of manufacturing at the power plant site (“mobile factory”) by delivery of the raw materials and semi-finished products is foreseen, adding value to the local content. Within the project a collector prototype consisting of an extraordinary thin concrete shell was realised based on FEM calculations. The shell is moved via a novel sickle-shaped hill with a newly developed drive system. The collector’s shape was measured by photogrammetry and its optical performance deduced. A part of the ConSol project was dedicated to the improvement of a PVD coated mirror multilayer system on electrochemical polished aluminium strip substrate. With these new layer systems the reflective properties could be increased significantly. Finally, the costs of the system was summarised and cost benchmarks with existing collector technology.
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25 July 2019
SolarPACES 2018: International Conference on Concentrating Solar Power and Chemical Energy Systems
2–5 October 2018
Casablanca, Morocco
Research Article|
July 25 2019
Development of a concrete parabolic trough collector
Dirk Krüger;
Dirk Krüger
a)
1
German Aerospace Centre, Institute of Solar Research
, Linder Höhe, 51147 Cologne, Germany
a)Corresponding author: dirk.krueger@dlr.de
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Sebastian Penkert;
Sebastian Penkert
2
Institute of Concrete Structures and Structural Engineering, Technische Universität Kaiserslautern
, Germany
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Jürgen Schnell;
Jürgen Schnell
2
Institute of Concrete Structures and Structural Engineering, Technische Universität Kaiserslautern
, Germany
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Nicole Janotte;
Nicole Janotte
1
German Aerospace Centre, Institute of Solar Research
, Linder Höhe, 51147 Cologne, Germany
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Patrick Forman;
Patrick Forman
3
Ruhr-Universität Bochum, Lehrstuhl für Massivbau, Universitätsstraße 150
, 44801 Bochum, Germany
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Peter Mark;
Peter Mark
3
Ruhr-Universität Bochum, Lehrstuhl für Massivbau, Universitätsstraße 150
, 44801 Bochum, Germany
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Tobias Stanecker;
Tobias Stanecker
4
Stanecker Betonfertigteilwerk GmbH, Robert-Bosch-Straße 17-19
, 33178 Borchen, Germany
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Joachim Krüger;
Joachim Krüger
5
Solarlite CSP Technology GmbH, Duckwitz 10
, 17179 Behren-Lübchin, Germany
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Alois Natterer;
Alois Natterer
6
Pfeifer Seil- und Hebetechnik GmbH, Dr.-Karl-Lenz-Straße 66
, D-87700 Memmingen, Germany
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Matthias Kintscher;
Matthias Kintscher
6
Pfeifer Seil- und Hebetechnik GmbH, Dr.-Karl-Lenz-Straße 66
, D-87700 Memmingen, Germany
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Reinhard Dasbach;
Reinhard Dasbach
7
Almeco GmbH
, Claude Breda Str. 3, 06406 Bernburg, Germany
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Johannes Wette;
Johannes Wette
8
German Aerospace Centre, Institute of Solar Research, Plataforma Solar de Almería
, Spain
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Klaus Hennecke;
Klaus Hennecke
1
German Aerospace Centre, Institute of Solar Research
, Linder Höhe, 51147 Cologne, Germany
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Timo Zippler
Timo Zippler
5
Solarlite CSP Technology GmbH, Duckwitz 10
, 17179 Behren-Lübchin, Germany
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a)Corresponding author: dirk.krueger@dlr.de
AIP Conf. Proc. 2126, 120008 (2019)
Citation
Dirk Krüger, Sebastian Penkert, Jürgen Schnell, Nicole Janotte, Patrick Forman, Peter Mark, Tobias Stanecker, Joachim Krüger, Alois Natterer, Matthias Kintscher, Reinhard Dasbach, Johannes Wette, Klaus Hennecke, Timo Zippler; Development of a concrete parabolic trough collector. AIP Conf. Proc. 25 July 2019; 2126 (1): 120008. https://doi.org/10.1063/1.5117626
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