A central solar plant based on beam-down optics is composed of a field of heliostats, a tower reflector (hyperboloid mirror), and a ground receiver interfaced at its aperture with one or a cluster of secondary concentrators (compound parabolic concentrator). In previous publications, a method was presented, illustrating the correlation between the tower reflector position and its size on one hand and the geometry, dimensions, and reflective area of the secondary concentrator on the other hand, both related to the heliostat field reflective area. Obviously, when one wishes to reduce the size of a tower reflector by locating it closer to the upper focal point, the image created at the lower focus will be broader, resulting in a larger secondary ground concentrator. The present paper describes a method for substantial decrease in the dimensions of the ground secondary concentrator cluster (and, implicitly, the concentrator's area) via truncation and some geometrical corrections without significant sacrifice of the optical performance. This offers a method for cost effective design of future central solar plants, utilizing the beam-down optics.

1.
Segal
,
A.
, and
Epstein
,
M.
, 1997, “
Modeling of Solar Receiver for Cracking of Liquid Petroleum Gas
,”
ASME J. Sol. Energy Eng.
0199-6231,
119
, pp.
48
51
.
2.
Yogev
,
A.
,
Kribus
,
A.
,
Epstein
,
M.
, and
Kogan
,
A.
, 1998, “
Solar ‘Tower Reflector’ Systems: A New Approach for High Temperature Solar Plants
,”
Int. J. Hydrogen Energy
0360-3199,
23
, pp.
239
245
.
3.
Segal
,
A.
, and
Epstein
,
M.
, 1999, “
Comparative Performances of ‘Tower-Top’ and ‘Tower-Reflector’ Central Solar Receivers
,”
Sol. Energy
0038-092X,
65
, pp.
207
226
.
4.
Segal
,
A.
, and
Epstein
,
M.
, 1999, “
The Reflective Solar Town as an Option for High Temperature Central Receivers
,”
J. Phys. IV
1155-4339,
9
, pp.
3.53
3.58
.
5.
Segal
,
A.
, and
Epstein
,
M.
, 2001, “
The Optics of the Solar Reflector
,”
Sol. Energy
0038-092X,
69
, pp.
229
241
.
6.
Segal
,
A.
, and
Epstein
,
M.
, 2003, “
Solar Ground Reformer
,”
Sol. Energy
0038-092X,
75
, pp.
479
490
.
7.
Segal
,
A.
, and
Epstein
,
M.
, 2008, “
Practical Considerations in Designing Large Scale ‘Beam-Down’ Optical System
,”
ASME J. Sol. Energy Eng.
0199-6231,
130
, p.
011009
.
8.
Timinger
,
A.
,
Kirbus
,
A.
,
Doron
,
P.
, and
Ries
,
H.
, 2000, “
Faceted Concentrators Optimized for Homogeneous Radiation
,”
Appl. Opt.
0003-6935,
39
, pp.
1152
1158
.
9.
Timinger
,
A.
,
Kribus
,
A.
,
Ries
,
H.
,
Smith
,
T.
, and
Walther
,
M.
, 2000, “
Optical Assesment of Nonimaging Concentrators
,”
Appl. Opt.
0003-6935,
39
, pp.
5679
5684
.
10.
Winston
,
R.
,
Minano
,
J. C.
, and
Benitez
,
P.
, 2005,
Nonimaging Optics
,
Elsevier Academic Press
, Ch. 5.7, p.
81
.
11.
Bejan
,
A.
, 1995,
Convection Heat Transfer
,
Wiley
,
New York
, p.
186
.
You do not currently have access to this content.