A highly efficient novel azimuthal heliotrope |
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Authors: | F. Mavromatakis Y. Franghiadakis |
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Affiliation: | aDepartment of Sciences, Technological Education Institute of Crete, Estavromenos, P.O. Box 1939, GR-710 04 Heraklion, Crete, Greece |
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Abstract: | A new type of a single-axis azimuthal tracker is presented. The novel feature of this tracker is the ability to move the collector’s plane in two directions through a special support structure. This structure consists of a sliding mechanism on the central axis and a curved window on the cylindrical surface coaxial to the central axis. Consequently, the proposed novel heliotrope behaves similarly to a two-axis tracker. Two different windows designed on the cylindrical surface may be used to provide very high efficiencies throughout a year. Several performance measurements have been conducted on this novel tracker, a polar tracker and the reference two-axis tracker. Pyranometers, appropriately calibrated, were installed on all three systems to record the global incoming irradiance on the collector’s plane. It is shown that the new tracker system can be very efficient since its plane intercepts, at least, 98% of the insolation with respect to a two-axis tracker. The proposed system can be utilized in solar-related applications (photovoltaic or thermal). |
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Keywords: | Solar trackers Irradiance Relative performance Data processing Models Photovoltaic systems |
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