Abstract

Solar radiation data, a prerequisite for the designing and sizing of solar energy systems, are not available in many Indian locations. However, the sunshine hour or temperature data are available for most sites from which solar radiation can be computed. New correlation models have been developed; incorporating the latitude and altitude of a site to estimate the monthly average global solar radiation on horizontal surfaces using the sunshine hour and temperature data. The models are used for computing values of six Indian stations with different geographical locations, based on 10-15years of data. The estimated values are found to be in close agreement with their measured values. The estimated data are also compared with the results using other models to test the accuracy of new models. It has been shown that the estimated values of global radiation using temperature data are also sufficiently accurate and can be utilized for sites for which even sunshine hour data are not measured. This will lead to better inputs for designing and evaluating the performance of solar energy systems including passive solar buildings.

References

1.
Chandel
,
S. S.
,
King
,
S.
, and
Prasad
,
D.
, 2001, “
Implementing Passive Solar Housing Technology in Mountains
,” Bringing Solar Down To Earth,
Proceedings of ISES, Solar World Congress
, edited by
Saman
,
W. Y.
, and
Charters
,
W. W. S.
, pp.
183
189
.
2.
Kimbal
,
H. H.
, 1919, “
Variations in Total and Luminous Solar Radiation with Geographical Position in the United States
,”
Mon. Weather Rev.
0027-0644,
47
, p.
769
.
3.
Angstrom
,
A.
, 1924, “
Solar and Terrestrial Radiation
,”
Q. J. R. Meteorol. Soc.
0035-9009,
50
, pp.
121
126
.
4.
Prescott
,
J. A.
, 1940, “
Evaporation from a Water Surface in Relation to Solar Radiation
,”
Trans. - R. Soc. S. Austr.
,
64
, pp.
114
118
.
5.
Lunde
,
P. J.
, 1980,
Solar Thermal Engineering Space Heating and Hot Water Systems
,
Wiley
, New York.
6.
Mani
,
A.
, and
Rangarajan
,
S.
, 1982,
Solar Radiation Over India
,
Allied Publishers
, New Delhi.
7.
Glover
,
J.
, and
McCulloch
,
J. D. G.
, 1958, “
The empirical relation between solar radiation and hours of bright sunshine
,”
Q. J. R. Meteorol. Soc.
0035-9009,
84
, pp.
172
178
.
8.
Page
,
J. K.
, 1961, “
The Estimation of Monthly Mean Values of Daily Total Shortwave Radiation on Vertical and Inclined Surfaces from Sunshine Records for Latitude 40°N-40°S
,”
Proc. UN Conference on New Sources of Energy
, Paper no. 35 1S1 98, pp.
378
390
.
9.
Rietveld
,
M. R.
, 1978, “
A new method to estimate the regression coefficients in the formula relating to sunshine
,”
Agric. Meterol.
0002-1571,
19
, pp.
243
252
.
10.
Dogniaux
,
R.
, and
Lemoine
,
M.
, 1983, “
Classification of Radiation Sites in Terms of Different Indices of Atmospheric Transparency
,”
Solar Energy Research and Development in the European Community, Series F, 2
,
Reidel Publishing Company
, Dordrecht, Holland.
11.
Gopinathan
,
K. K.
, 1988, “
A General Formula for Computing the Coefficients of the Correlations to Sunshine Duration
,”
Sol. Energy
0038-092X,
41
, pp.
499
502
.
12.
Raja
,
I. A.
and
Twidell
,
J. W.
, 1990, “
Distribution of Global Insolation Over Pakistan
,”
Sol. Energy
0038-092X,
44
(
2
), pp.
63
71
.
13.
Raja
,
I. A.
, 1994, “
Insolation Sunshine relation with site elevation and latitude
,”
Sol. Energy
0038-092X,
53
(
1
), pp.
53
56
.
14.
Singh
,
G. M.
, and
Bhatti
,
S. S.
, 1990,
Energy Convers. Management
,
30
(
2
), p.
155
.
15.
Samuel
,
T. D. M. A.
, 1991, “
Estimation of global radiation for Sri Lanka
,”
Sol. Energy
0038-092X,
47
(
5
), pp.
333
337
.
16.
Srivastava
,
S. K.
,
Singh
,
O. P.
, and
Pandey
,
G. N.
, 1993, “
Estimation of Global Solar Radiation in Uttar Pradesh (India) and comparison of some existing correlations
,”
Sol. Energy
0038-092X,
51
(
1
), pp.
27
29
.
17.
Bristow
,
K. L.
, and
Campbell
,
G. S.
, 1984, “
On the relationship between incoming solar radiation and daily maximum and minimum temperature
,”
Agric. Forest Meteorol.
0168-1923,
31
, pp.
159
166
.
18.
Allen
,
R. G.
, 1997, “
A self calibrating method for estimating solar radiation from air temperature
,”
J. Hydraul. Eng.
0733-9429,
2
(
2
), pp.
56
57
.
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