1176
đĂÖÿćøĂš
ćÜĂĉ
Ü
[1] Ögelman H, Ecevit A, and TasdemiroǛMVǰ&. (1984). A new method for estimating solar radiation from
bright sunshine data.
Sol Energy
. 33, 619-625.
[2] Bahel V, Bakhsh H, and Srinivasan R. (1987). A correlation for estimation of global solar radiation.
Energy
. 12, 131-135.
[3] Khogali A, Ramadan M, Ali Z, and Fattah Y. (1983). Global and diffuse solar irradiance in Yemen
(Y.A.R.).
Sol Energy
. 31, 55-62.
[4] Luhanga P, and Andringa J. (1990). . Characteristics of solar radiation at Sebele, Gaborone, Botswana.
Sol Energy.
44, 77-81.
[5] Almorox J, and Hontoria C. (2004). Global solar radiation estimation using sunshine duration in Spain.
Energy Conversion and Management.
45, 1529-1535.
[6] Jain P. (1990). A model for diffuse and global irradiation on horizontal surfaces.
Sol Energy.
45, 301-
309.
[7] Maduekwe A, and Chendo M. (1995). Predicting the components of the total hemispherical solar
radiation from sunshine duration measurements in Lagos, Nigeria.
Renew Energy.
6, 807-812.
[8] Ersoy 5BǠEFNJSoglu, and Ramazan Sever. (1991). An improved correlation for estimating solar
radiation from bright sunshine data for Turkey.
Energy Conversion and Management.
31, 599-
600.
[9] Milan Despotovic, Vladimir Nedic, Danijela Despotovic, and Slobodan Cvetanovic. (2015). Review and
statistical analysis of different global solar radiation sunshine models.
Renewable Energy and
Sustainable Reviews
. 52, 1869-1880.
[10] ÖùþèóÜýŤ
ǰÖĊ
øêĉ
Öø. (2552). øĆ
ÜÿĊ
éüÜĂćìĉ
ê÷Ť
. 1-164. ÿČ
ïÙš
îđöČę
Ăǰ6 öÖøćÙöǰ2559, ÝćÖ
52.pdf