An automated method for the evaluation of the pointing accuracy of Sun-tracking devices

The accuracy of solar radiation measurements, for direct (DIR) and diffuse (DIF) radiation, depends significantly on the precision of the operational Sun-tracking device. Thus, rigid targets for instrument performance and operation have been specified for international monitoring networks, e.g., the...

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Bibliographic Details
Published in:Atmospheric measurement techniques 2017-03, Vol.10 (3), p.1181-1190
Main Authors: Baumgartner, Dietmar J, Pötzi, Werner, Freislich, Heinrich, Strutzmann, Heinz, Veronig, Astrid M, Rieder, Harald E
Format: Article
Language:English
Subjects:
Accuracy
Analysis
Automatic control
Automation
Cameras
Cloud cover
Control systems
Direct solar radiation
Environmental monitoring
Evaluation
Fourier transforms
Frontal movement
Global climate
Instrument industry (Equipment)
Methods
Monitoring
Monitoring systems
Observatories
Radiation (Physics)
Radiation measurement
Radiation monitoring
Research programmes
Sensors
Solar limb
Solar radiation
Solar radiation measurements
Specifications
Sun
Tracking devices
Tracking equipment
Tracking systems
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Summary:The accuracy of solar radiation measurements, for direct (DIR) and diffuse (DIF) radiation, depends significantly on the precision of the operational Sun-tracking device. Thus, rigid targets for instrument performance and operation have been specified for international monitoring networks, e.g., the Baseline Surface Radiation Network (BSRN) operating under the auspices of the World Climate Research Program (WCRP). Sun-tracking devices that fulfill these accuracy requirements are available from various instrument manufacturers; however, none of the commercially available systems comprise an automatic accuracy control system allowing platform operators to independently validate the pointing accuracy of Sun-tracking sensors during operation. Here we present KSO-STREAMS (KSO-SunTRackEr Accuracy Monitoring System), a fully automated, system-independent, and cost-effective system for evaluating the pointing accuracy of Sun-tracking devices. We detail the monitoring system setup, its design and specifications, and the results from its application to the Sun-tracking system operated at the Kanzelhöhe Observatory (KSO) Austrian radiation monitoring network (ARAD) site. The results from an evaluation campaign from March to June 2015 show that the tracking accuracy of the device operated at KSO lies within BSRN specifications (i.e., 0.1° tracking accuracy) for the vast majority of observations (99.8 %). The evaluation of manufacturer-specified active-tracking accuracies (0.02°), during periods with direct solar radiation exceeding 300 W m−2, shows that these are satisfied in 72.9 % of observations. Tracking accuracies are highest during clear-sky conditions and on days where prevailing clear-sky conditions are interrupted by frontal movement; in these cases, we obtain the complete fulfillment of BSRN requirements and 76.4 % of observations within manufacturer-specified active-tracking accuracies. Limitations to tracking surveillance arise during overcast conditions and periods of partial solar-limb coverage by clouds. On days with variable cloud cover, 78.1 % (99.9 %) of observations meet active-tracking (BSRN) accuracy requirements while for days with prevailing overcast conditions these numbers reduce to 64.3 % (99.5 %).
ISSN:1867-8548
1867-1381
1867-8548
DOI:10.5194/amt-10-1181-2017