An analytic function for the flux density due to sunlight reflected from a heliostat

Abstract This paper presents an analytical model for the flux density due to a focused heliostat over the receiver plane of a tower solar plant. The main assumptions are: spherical and continuous surface of the mirror, linear conformal transformation in the complex plane equivalent to the reflection mapping between an on-axis aligned heliostat and the objective located on the receiver at the slant range necessary to produce the minimum circle of confusion, circular Gaussian distribution of the effective sunshape and the concentration function constant on the receiver or the image plane. Under the hypotheses presented earlier an exact convolution is obtained. The result, an analytic flux density function, relatively simple and very flexible, is confronted with experimental measurements taken from four heliostat prototypes of second-generation placed at the Central Receiver Test Facility (CRTF), Albuquerque, New Mexico, and compared indirectly with the predictions of the Helios model for the same heliostats. The model is an essential tool in the problem of the determination of collector field parameters by optimization methods.

[1]  D L King Beam quality and tracking-accuracy evaluation of second-generation and Barstow production heliostats , 1982 .

[2]  Donald G. Burkhard,et al.  Flux Density for Ray Propagation in Discrete Index Media Expressed in Terms of the Intrinsic Geometry of the Deflecting Surface , 1973 .

[3]  F. W. Lipps,et al.  A solar flux density calculation for a solar tower concentrator using a two-dimensional Hermite function expansion , 1977 .

[4]  R. B. Pettit,et al.  Characterization of the reflected beam profile of solar mirror materials , 1977 .

[5]  F. W. Lipps A numerical approach to the flux density integral for reflected sunlight , 1979 .

[6]  Frederick W. Lipps Four different views of the heliostat flux density integral , 1976 .

[7]  F. Biggs,et al.  Simplified Calculational Procedure for Determining the Amount of Intercepted Sunlight in an Imaging Solar Concentrator , 1983 .

[8]  F. Biggs,et al.  User's guide to HELIOS: a computer program for modeling the optical behavior of reflecting solar concentrators. Part III. Appendices concerning HELIOS-code details , 1981 .

[9]  F. W. Lipps,et al.  An analytic evaluation of the flux density due to sunlight reflected from a flat mirror having a polygonal boundary , 1978 .

[10]  E. A. Igel,et al.  Optical analysis of solar facility heliostats , 1979 .

[11]  F. Biggs,et al.  Helios model for the optical behavior of reflecting solar concentrators , 1979 .

[12]  M. R. Riaz A Theory of Concentrators of Solar Energy on a Central Receiver for Electric Power Generation , 1975 .