Daily Variation Law of Solar Radiation Incident on the Horizontal Surface near the Ground
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Author(s)
Abstract
It is important to understand the daily variation law of solar radiation flux density incident on the horizontal surface for such research and application fields as architecture, industry, agriculture, environment, hydrology, agrology, meteorology, limnology, oceanography and ecology. However, there is not a model or theory to better explain the daily variation of solar radiation near the ground. In this study, the daily variation of solar radiation flux density incident on the horizontal surface is developed and the data investigated in Automatic meteorological station, Changwu ecoexperimental station, China is used to test the theory. The results showed that generally sky conditions is stable, and the daily dynamic of the solar radiation flux density incident on the horizontal surface near the ground is the function of time, which can be described by a normal distribution model in a day. The main parameters of the model change with date and the meteorological conditions in a day.
Keywords
Horizontal surface; Solar radiation Flux density; time; sky conditions; Daily variation model; Diurnal total solar energy; Ecological environment
Cite this paper
Zhongsheng Guo,
Daily Variation Law of Solar Radiation Incident on the Horizontal Surface near the Ground
, SCIREA Journal of Chemistry.
Volume 4, Issue 2, April 2019 | PP. 70-81.
References
[ 1 ] | Aman MM,Solangi KH,Hossain MS,A Badarudin A, GB Jasmon GB.2015. A review of Safety, Health and Environmental (SHE) issues of solar energy system. Renew Sust Energ Rev 41:1190-204. |
[ 2 ] | Albaugh TJ,Allen HL,Dougherty PM,Kress LW,King JS.1998. Leaf Area and Above- and Belowground Growth Responses of Loblolly Pine to Nutrient and water additions. Forest Sci 2:317-28. |
[ 3 ] | Arkebauer TJ , Weiss A, Sinclair TR, Blum A .1994. In defense of radiation use efficiency: a response to demetriades. Agr Forest Meteorol 68: 221-227. |
[ 4 ] | Buluta H, Büyükalaca O.2007. Simple model for the generation of daily global solar-radiation data in Turkey. Appl Energ 84:477–91. |
[ 5 ] | Cannell, MJR.1989. Physiological basis of wood production: A review. Scandinavian J Forest Research 4: 459-490. |
[ 6 ] | El-Sebaii AA,Al-Hazmi FS,Al-Ghamdi AA,Yaghmour SJ. 2010.Global, direct and diffuse solar radiation on horizontal and tilted surfaces in Jeddah, Saudi Arabia. Appl Energy 87:568–76. |
[ 7 ] | Gates G.1980.Biophysical Ecology. Springer-Verlag, New York. Heidelberg, Berlin. |
[ 8 ] | Gosse G,Varlet-Grancher C,Bonhomme R,Chartier M,Allirand JM.1986. Production maximalen de matière Sèche et rayonnement solaire interceptè par un couvert vegetal. Agoronomie 6:47-56. |
[ 9 ] | Guo ZS, Si LM, Liu, XD, Liu KJ.1991. A preliminary study on microclimate in littleleaf pea shrub shrubbery. Memoir of NISWC, Academia Sinica & Ministry of water Conservation 14:84-95. |
[ 10 ] | Guo ZS.1998. Research of the effects of Seabuchthorn shrubbery on its Microclimate Material of International Symposium on Seabuckthorn. Russia. 98-98. |
[ 11 ] | Guo ZS, Zhang XP. 2015.Diurnal change of the Instantaneous Solar Radiation Flux Density to the Horizontal Surface, in the Materials Science and Energy Engineering, Edited by Chung and Li. World Scientific Press: website at www.worldscientific.com .608-16. |
[ 12 ] | Janjai S. , Pankaew P. ,and Laksanaboonsong J. 2009.A model for calculating hourly global solar radiation from satellite data in the tropics. Appl Energy 86: 1450–57. |
[ 13 ] | Hong QF, Wang YZH, Wu SZ, Cao ZHK, Huang JG, Liu HK, Wang ZHSH, Wan ZHL, Zhou BL.1963. Microclimate of Masson Pine young Forest. Chinese Journal of Forestry Science 283-88. |
[ 14 ] | Lee R.1978. Forest microclimatology. Columbia University press. |
[ 15 ] | Linder S.1987.Responses to Water and nutrients in coniferous ecosystems. P.180-202 in Potentials and limitations of ecosystems analysis. Ecol. Studies 61. Schulze, E. D.,and Wolfer, H. Z.(eds.). Springer-Verlage, New York. |
[ 16 ] | Olesen JE and Grevsen K.1997. Effects of temperature and irradiance on vegetative growth of cauliflower(Brassica oleracea L.Botrytis) and broccoli(Brassica oleracea L.italica). J Exp Bot. 313:1591-8. |
[ 17 ] | Spurr SH and Barnes BV. 1980. Forest Ecology . John Wiley & Sons . |
[ 18 ] | Shukla KN, Rangnekar S, and Sudhakar K. 2015. Comparative study of isotropic and anisotropic sky models to estimate solar radiation incident on tilted surface: A case study for Bhopal, India. Energy Reports.1:96-103 |
[ 19 ] | Zu YG.1990.Introduce of Energy Ecology. Jilin Science and Technology Publishing House. Changchun, China . |
[ 20 ] | Wu Guofeng, Liu Yaolin, Wang Tiejun.2007. Methods and strategy for modeling daily global solar radiation with measured meteorological data – A case study in Nanchang station, China. Energ Convers Manage. 48: 2447–2452. |