Exergy analysis of the focal-plane flux distribution of solar-thermal concentrators

Date

2018

Authors

Asselineau, Charles-Alexis
Coventry, Joe
Pye, John

Journal Title

Journal ISSN

Volume Title

Publisher

Pergamon Press

Abstract

As concentrating solar power systems push towards higher temperatures and lower costs, it is critical that losses of overall system performance can be attributed correctly to the appropriate source. Up to now, this has been poorly done for the case of optical errors, since applicable methods do not exist to quantify how much different imperfections contribute to reducing the upper-bound efficiency of the overall system. Here, the exergy impact of varied optical design parameters—slope error, rim angle, mirror reflectance and sun-shape—is calculated for the first time. Slope error is shown to have the strongest impact. Also, dishes with rim angles significantly wider than the conventional 45° are shown to yield the best overall energy conversion. The resulting analysis method, broadly applicable in concentrating solar power, enables a new approach to quantitative optical system design.

Description

Keywords

Exergy Slope error Rim angle Mirror reflectance Sun shape Peak temperature

Citation

Source

Applied Energy

Type

Journal article

Book Title

Entity type

Access Statement

License Rights

Restricted until

2037-12-31