Distribution of heliostat aim points is a major task during central receiver operation, as the flux distribution produced by the heliostats varies continuously with time. Known methods for aim point distribution are mostly based on simple aim point patterns and focus on control strategies to meet local temperature and flux limits of the receiver. Lowering the peak flux on the receiver to avoid hot spots and maximizing thermal output are obviously competing targets that call for a comprehensive optimization process. This paper presents a model-based method for online aim point optimization that includes the current heliostat field mirror quality derived through an automated deflectometric measurement process.
REFERENCES
1.
Vant-Hull
, L.L.
, The Role of “Allowable Flux Density” in the Design and Operation of Molten-Salt Solar Central Receivers
. Journal of Solar Energy Engineering
, 2002
. 124
(2
): p. 165
–169
.2.
Ulmer
, S.
, et al., Automated High Resolution Measurement of Heliostat Slope Errors
. Solar Energy
, 2010
.3.
Belhomme
, B.
, et al., A New Fast Ray Tracing Tool for High-Precision Simulation of Heliostat Fields
. Journal of Solar Energy Engineering
, 2009
. 131
(3
).4.
Ahlbrink
, N.
, et al., STRAL: Fast Ray Tracing Software With Tool Coupling Capabilities for High-Precision Simulations of Solar Thermal Power Plants
, in 18th International Symposium on Solar Power and Chemical Energy Systems (SolarPACES)
2012
: Marrakesch, Marokko
.5.
Belhomme
, B.
, R.
Pitz-Paal
, and P.
Schwarzbözl
, Optimization of Heliostat Aim Point Selection for Central Receiver Systems Based on the Ant Colony Optimization Metaheuristic
. Journal of Solar Energy Engineering
, 2014
. 136
(1
).6.
Dorigo
, M.
and L.M.
Gambardella
, Ant colony system: a cooperative learning approach to the traveling salesman problem
. Evolutionary Computation, IEEE Transactions on
, 1997
. 1
(1
): p. 53
–66
.7.
Belhomme
, B.
, Bewertung und Optimierung von Zielpunktstrategien für solare Turmkraftwerke, in Fakultät für Maschinenwesen
2011
, Rheinisch-Westfälische Technische Hochschule Aachen
: Aachen
. p. 138
.8.
Ahlbrink
, N.
, et al., Optimized operation of an open volumetric air receiver
, in 16th International Symposium on Solar Power and Chemical Energy Systems (SolarPACES)
2010
: Perpignan, France
.
This content is only available via PDF.
© 2016 Author(s).
2016
Author(s)