The control of the profile on the surface of heliostats is crucial because the mirror can be imperfectly manufactured, and the distribution of solar irradiation on the receiver is sensitive to the curvature of the surface of the heliostat. In practice, irregularities in the surface of the heliostat introduce aberrations that contribute to enlarge the spot on the receiver and the resulting energetic losses depend on the collection characteristics of the solar plant. Since the solar field can be formed by thousands of mirrors, it is essential to have a quick and economical control method to be used during manufacturing operations and successively also in the field during installation. The proposed method of optical control is based on techniques of image analysis. It assesses the heliostat surface quality by means of the examination of the acquired image in comparison with a reference image. This on-site optical control could be applied on various mirror types. The application of this profile control requires only a photographic camera and a screen with a calibrated pattern. The main advantages are ease of application, low-cost equipment, and simplicity of processing.

1.
R.
Ditteon
,
Modern geometrical optics:
(
John Wiley and sons
,
New York
,
1998
), pp.
50
53
.
2.
J.
Blackwell
and
S.
Thornton
,
Mastering Optics: An Applications Guide to Optical Engineering
(
McGraw-Hill Book Company
,
New York
,
1996
), pp.
86
89
.
3.
A.
Maccari
and
M.
Montecchi
,
Solar Energy
81
(
2
),
185
194
(
2007
).
4.
F.
Francini
,
D.
Fontani
,
P.
Sansoni
,
L.
Mercatelli
,
D.
Jafrancesco
and
E.
Sani
,
International Journal of Photoenergy
2012
, 863654,
1
7
(
2012
).
5.
P.
Sansoni
,
D.
Fontani
,
F.
Francini
,
L.
Mercatelli
and
D.
Jafrancesco
,
Optical Engineering
45
(
8
), 080508,
1
3
(
2006
).
6.
C.
Weber
,
S.
Ulmer
and
H.
Koch
,
Energy Procedia
49
,
2231
2240
(
2014
).
7.
K.
Pottler
,
E.
Lüpfert
,
G.H.
Johnston
and
M. R.
Shortis
,
Journal of Solar Energy Engineering
127
(
1
),
94
101
(
2005
).
8.
T.
Wendelin
,
K.
May
and
R.
Gee
. Vol.
2006
,
No. NREL/CP-550-39590. National Renewable Energy Lab.(NREL)
,
Golden
,
CO (United States
) (
2006
).
9.
H.
Zhu
,
Z.
Wang
,
H.
Wang
and
Q.
Yu
,
Energy Procedia
69
1921
1927
(
2015
).
10.
P.
King
,
P.
Comley
and
C.
Sansom
,
Energy Procedia
49
118
125
(
2014
).
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