The cost of solar tower power plants is dominated by the heliostat field making up roughly 50% of investment costs. Classical heliostat design is dominated by mirrors brought into position by steel structures and drives that guarantee high accuracies under wind loads and thermal stress situations. A large fraction of costs is caused by the stiffness requirements of the steel structure, typically resulting in steel per mirror area. The typical cost figure of heliostats (figure mentioned by Solucar at Solar Paces Conference, Seville, 2006) is currently in the area of caused by the increasing price of the necessary raw materials. An interesting option to reduce costs lies in a heliostat design where all moving parts are protected from wind loads. In this way, drives and mechanical layout may be kept less robust, thereby reducing material input and costs. In order to keep the heliostat at an appropriate size, small mirrors (around ) have to be used, which are placed in a box with a transparent cover. Innovative drive systems are developed in order to obtain a cost-effective design. A demonstration unit will be constructed. Tests of the unit are carried out with a high-precision artificial sun unit that imitates the sun’s path with an accuracy of less than 0.5 mrad and creates a beam of parallel light with a divergence of less than 4 mrad.
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February 2010
Research Papers
Solar Concentrating Systems Using Small Mirror Arrays
Joachim Göttsche,
Joachim Göttsche
Solar-Institut Jülich/Aachen,
University of Applied Sciences
, Solar -Institut Jülich Heinrich-Mussmann-Str. 5 Juelich, NRW 52428 Germany
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Bernhard Hoffschmidt,
Bernhard Hoffschmidt
Solar-Institut Jülich/Aachen,
University of Applied Sciences
, Solar -Institut Jülich Heinrich-Mussmann-Str. 5 Juelich, NRW 52428 Germany
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Stefan Schmitz,
Stefan Schmitz
Solar-Institut Jülich/Aachen,
University of Applied Sciences
, Solar -Institut Jülich Heinrich-Mussmann-Str. 5 Juelich, NRW 52428 Germany
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Markus Sauerborn,
Markus Sauerborn
Solar-Institut Jülich/Aachen,
University of Applied Sciences
, Solar -Institut Jülich Heinrich-Mussmann-Str. 5 Juelich, NRW 52428 Germany
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Reiner Buck,
Reiner Buck
German Aerospace Center (DLR)
, Pfaffenwaldring 38-40 Stuttgart, 70569 Germany
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Edgar Teufel,
Edgar Teufel
German Aerospace Center (DLR)
, Pfaffenwaldring 38-40 Stuttgart, 70569 Germany
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Kathrin Badstübner,
Kathrin Badstübner
Fraunhofer Institute for Reliability and Microintegration (Fraunhofer-IZM)
, Argelsrieder Feld 6 Oberpfaffenhofen, D-82234 Germany
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David Ifland,
David Ifland
Fraunhofer Institute for Reliability and Microintegration (Fraunhofer-IZM)
, Argelsrieder Feld 6 Oberpfaffenhofen, D-82234 Germany
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Christian Rebholz
Christian Rebholz
Fraunhofer Institute for Reliability and Microintegration (Fraunhofer-IZM)
, Argelsrieder Feld 6 Oberpfaffenhofen, D-82234 Germany
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Joachim Göttsche
Solar-Institut Jülich/Aachen,
University of Applied Sciences
, Solar -Institut Jülich Heinrich-Mussmann-Str. 5 Juelich, NRW 52428 Germany
Bernhard Hoffschmidt
Solar-Institut Jülich/Aachen,
University of Applied Sciences
, Solar -Institut Jülich Heinrich-Mussmann-Str. 5 Juelich, NRW 52428 Germany
Stefan Schmitz
Solar-Institut Jülich/Aachen,
University of Applied Sciences
, Solar -Institut Jülich Heinrich-Mussmann-Str. 5 Juelich, NRW 52428 Germany
Markus Sauerborn
Solar-Institut Jülich/Aachen,
University of Applied Sciences
, Solar -Institut Jülich Heinrich-Mussmann-Str. 5 Juelich, NRW 52428 Germany
Reiner Buck
German Aerospace Center (DLR)
, Pfaffenwaldring 38-40 Stuttgart, 70569 Germany
Edgar Teufel
German Aerospace Center (DLR)
, Pfaffenwaldring 38-40 Stuttgart, 70569 Germany
Kathrin Badstübner
Fraunhofer Institute for Reliability and Microintegration (Fraunhofer-IZM)
, Argelsrieder Feld 6 Oberpfaffenhofen, D-82234 Germany
David Ifland
Fraunhofer Institute for Reliability and Microintegration (Fraunhofer-IZM)
, Argelsrieder Feld 6 Oberpfaffenhofen, D-82234 Germany
Christian Rebholz
Fraunhofer Institute for Reliability and Microintegration (Fraunhofer-IZM)
, Argelsrieder Feld 6 Oberpfaffenhofen, D-82234 GermanyJ. Sol. Energy Eng. Feb 2010, 132(1): 011003 (4 pages)
Published Online: November 9, 2009
Article history
Received:
August 22, 2008
Revised:
May 28, 2009
Published:
November 9, 2009
Citation
Göttsche, J., Hoffschmidt, B., Schmitz, S., Sauerborn, M., Buck, R., Teufel, E., Badstübner, K., Ifland, D., and Rebholz, C. (November 9, 2009). "Solar Concentrating Systems Using Small Mirror Arrays." ASME. J. Sol. Energy Eng. February 2010; 132(1): 011003. https://doi.org/10.1115/1.4000332
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