The effect of the pitch angle, two-axis tracking system, and wind velocity on the parabolic trough solar collector thermal performance

In this study, heat transfer and airfield around a parabolic trough solar collector are simulated. The effect of the pitch angle, two-axis tracking system, and wind speed on the collector thermal performance is evaluated. Three-dimensional and turbulent flow equations are used. Simulations are perfo...

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Bibliographic Details
Published in:Environment, development and sustainability development and sustainability, 2021-12, Vol.23 (12), p.17329-17348
Main Authors: Shi, Yunhong, Toghraie, Davood, Nadi, Farzad, Ahmadi, Gholamreza, Alizadeh, As’ad, Zhang, Long
Format: Article
Language:English
Subjects:
Absorption
Angles
Drag
Earth and Environmental Science
Ecology
Economic Geology
Economic Growth
Environment
Environmental Economics
Environmental Management
Flow equations
Geographical distribution
Geographical locations
Heat loss
Heat transfer
Heat transfer coefficients
Performance evaluation
Pitch
Pitch (inclination)
Radiation
Solar collectors
Sustainable Development
Three dimensional flow
Tracking
Tracking systems
Turbulent flow
Wind
Wind effects
Wind speed
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Summary:In this study, heat transfer and airfield around a parabolic trough solar collector are simulated. The effect of the pitch angle, two-axis tracking system, and wind speed on the collector thermal performance is evaluated. Three-dimensional and turbulent flow equations are used. Simulations are performed at noon, for the 45th day of summer, for the geographical location of Isfahan. The effects of wind velocities from V  = 1 to 3 m/s are studied. The results of this study are investigated for a single-axis tracking system at pitch angles 0°, 15°, 30°, and 45°, and for a two-axis tracking system for the angles of 45°–35°, 45°–25°, and 45°–15°, respectively. The results indicate that factors such as the change in the heat transfer coefficient, collector pitch angles, and amount of flow deviation between the upper and lower dome of the collector resulting in a distinction between the absorption of maximum radiation fluxes or the maximum heat transfer (heat loss) rate. Moreover, the higher the pitch angle, the higher the amount of received sunlight, but on the other hand, it causes the wind to affect all the collector surfaces (more heat loss). The drag force applied to the two-axis collector is lower than the one-axis collector. Therefore, using a two-axis system not only does not increase the structure size but also can decrease it, too.
ISSN:1387-585X
1573-2975
DOI:10.1007/s10668-021-01368-2