1. Fluid Flow Analysis Behind Heliostat Using LES and RANS: A Step Towards Optimized Field Design in Desert Regions.
- Author
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Boddupalli, Nibodh, Goenka, Vikash, and Chandra, Laltu
- Subjects
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HELIOSTATS , *LASER Doppler velocimetry , *LARGE eddy simulation models , *REYNOLDS number , *SOLAR thermal energy - Abstract
Heliostats are used for concentrating beam radiation onto a receiver. The flow induced dust deposition on these reflectors will lead to failure of the receiver. For this purpose, the wake behind a heliostat is analyzed at 25° of inclination and at a Reynolds number of 60000. In this paper the Reynolds Averaged Navier-Stokes (RANS) and the Large Eddy Simulation (LES) approaches are used for analyzing the air-flow behind a heliostat. LES and RANS are performed with a wall-resolved grid. For the purpose of validation, the horizontal velocity is measured in a wind-tunnel with a model heliostat using laser Doppler velocimetry technique. RANS and LES approaches are found to qualitatively predict the statistical quantities, like the mean horizontal-velocity in comparison to experiment. RANS under-predicts root-mean-square of the horizontal-velocity and even failed to capture the flow features behind heliostat. Thus, it is concluded that RANS will suffice with well-resolved grid for analyzing mean flow features. For analyzing wake and to understand the induced dust deposition LES is required. Further, the analysis reveals that the wake-affected region is up to three times the length of the heliostat's mirror. This can be recommended as the minimum distance between any two aligned heliostats in Jodhpur. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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