FRAÇÕES SOLARES GLOBAL, DIFUSA E DIRETA DO ESPECTRO INFRAVERMELHO EM BOTUCATU/SP/BRASIL

Autores

Taiza Juliana Rossi Universidade Estadual Paulista
João Francisco Escobedo Universidade Estadual Paulista
Cícero Manoel dos Santos Universidade Estadual Paulista
Maurício Bruno Prado da Silva Universidade Estadual Paulista
Enzo Dal Pai Universidade Estadual Paulista

DOI:

https://doi.org/10.59627/cbens.2016.2016

Palavras-chave:

irradiações solares global, difusa e direta, irradiação infravermelha

Resumo

O trabalho descreve a analise estatística e climática das frações solares KdGIV, KddIV e KdDIV para uma base de dados das irradiações global(HGd), difusa(Hdd) e direta(HDd) do espectro total e das irradiações global (HdGIV), difusa (HddIV) e direta ( HdDIV) do espectro IV, medida nos anos de 2003 a 2006 em Botucatu-SP. São apresentadas ainda equações que permitem estimar as frações medias KdGIV, e KddIV em função de Kt com elevados coeficientes de determinação R2 = 0,958 e R2 = 0,943 respectivamente, e a fração média KdIV em função de Kd com coeficiente de determinação R2 = 0,982.

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Biografia do Autor

Taiza Juliana Rossi , Universidade Estadual Paulista

Departamento de Engenharia Rural – FCA/UNESP – Botucatu/SP/Brasil

João Francisco Escobedo , Universidade Estadual Paulista

Departamento de Engenharia Rural – FCA/UNESP – Botucatu/SP/Brasil

Cícero Manoel dos Santos , Universidade Estadual Paulista

Departamento de Engenharia Rural – FCA/UNESP – Botucatu/SP/Brasil

Maurício Bruno Prado da Silva , Universidade Estadual Paulista

Departamento de Engenharia Rural – FCA/UNESP – Botucatu/SP/Brasil

Enzo Dal Pai, Universidade Estadual Paulista

Departamento de Engenharia Rural – FCA/UNESP – Botucatu/SP/Brasil

Referências

Alados, I., Alados-Arboledas, L. Direct and diffuse photosynthetically active radiation: measurements and modelling. Agric. and For. Meteorol., v.93, p.27-38, 1999.

Al-Aruri S, Rasas M, Al-Jamal K, Shaban N. An assessment of global UV solar radiation in the range (0.290-0.385 μm) in Kuwait. Solar Energy 1988;41:159-62.

Bartoli, b., Cuomo, v., Amato, u. diffuse and bean components of daily global radiation in Genova and Macerata. sol. energy, v.28, p.307-11, 1982.

Blackburn WJ, Proctor JTA. Estimating photosynthetically active radiation from measured solar irradiance. Solar Energy 1983;31:233-34.

Bolsenga SJ, Near Infrared Radiation in Northern Greenland. Journal Applied Meteorology, 1997, 6, 449-451.

Cañada J, Pedros G, Bosca JV. Relationships between UV (0.290-0.385m) and broad band solar radiation hourly values in Valencia and Córdoba, Spain. Energy 2003; 28:199-217.

Carvalho, L. M. V.; Jones, C.; Liebmann, B. The South Atlantic Convergence Zone: Intensity, Form, Persistence, and Relationships with Intraseasonal to Interannual and Extreme Rainfall. Journal of Climate, v. 17, p. 88-108, 2004.

CEPAGRI – Centro de Pesquisas Meteorológicas e Climáticas Aplicadas à Agricultura http://www.cpa.unicamp.br/outras-informacoes/clima_muni_086.html, acesso em 14/09/2012.

Chaves M., Escobedo,J.F. A software to process daily solar radiation data.Renewable Energy, v19,no1,p339-344, 2000.

Codato, G.; Oliveira, A. P.; Soares, J.; Escobedo, J. F.; Gomes, E. G.; Dal Pai, A. Global and diffuse solar irradiances in urban and rural areas in southeast Brazil. Theoretical and Applied Climatology, v. 93, p.57–73, 2008.

Dal Pai, A.; Escobedo, J. F. Correa, Dal Pai, E.;Santos M. C.Estimation of Hourly,Daily and Monthly mean Diffuse Radiation Based Shadowring Correction. Energy Procedia 57(2014) 1150 - 1159

Dal Pai, A.; Escobedo, J. F. Correa, F. H. Numerical correction for the diffuse solar irradiance by the Melo-Escobedo shadowring measuring method In: ISES SOLAR WORLD CONGRESS 2011, 2011 Kassel.

Erbs, D.G., Klein, S.A., Duffie, J.A. Estimation of the diffuse radiation fraction for hourly, daily and monthly-average global radiation. Sol. Energy, v.28, p.293-302, 1982.

Escobedo J. F., Gomes E., Oliveira A. P., Soares J. Modeling hourly and daily fractions of UV, PAR and NIR to global solar radiation under various sky conditions at Botucatu, Brazil. Applied Energy 86, 299-309, 2009.

Escobedo J. F.,Gomes E. N.,OliveiraA. P.,Soares J. R. Ratios of UV,PAR and NIR components to global solar radiation measured at Botucatu site in Brazil. Renewable Energy 36, 169-178, 2011

Finch DA, Bailey WG, Mcarthur LJB, Nasitwitwi M. Photosynthetically active radiation regimes in a southern African savanna environment. Agricultural and Forest Meteorology 2004;122:229-38.

Fröhlich C, London J. Revised Instruction manual on radiation instruments and measurements. WCRP Publications series No. 7. WMO/TD No. 149, October 1986.

Jacovides CP, Assimakopoulos VD,Tymvios FS, Theophilou K, Asimakopoulos DN. Solar global UV radiation and its relationship with solar global radiation measured on the island of Cyprus.Energy 2006;31:2728-38.

Jacovides CP, Tymvios FS, Assimakopoulos VD, Kaltsounides NA. The dependence of global and diffuse PAR radiation components on sky conditions at Athens, Greece Agricultural and Forest Meteorology 2007;143:277-87.

Karalis JD. Characteristics of direct photosynthetically radiation. Agricultural and Forest Meteorology 1989;48:225-34.

Leal, S. S.; Tiba, C.; Piacentini, R. Daily UV radiation modeling with the usage of statistical correlations and artificial neural networks. Renewable Energy, v.36, p.3337-3344, 2011

Lemos, C.F.; Calbete, N. O. Sistemas frontais que atuaram no litoral de 1987-1995. Climanálise, Edição comemorativa 10 anos, 1996. (INPE-10717-PRE/6178).

Martinez-Lozano JA, Tena F, Utrillas MP. Ratio of UV to global broad band irradiation in Valencia, Spain. International Journal of Climatology 1999;19:903–11.

Melo, J.M.D.; Escobedo, J.F. Medida da radiação solar difusa. VII Congresso Ibérico de Energia Solar, Vigo, Espanha. Anais do Internacional Solar Energy Society, v.1, 1994.

Nogués-Paegle, J.; MO, K.C. Alternating wet and dry conditions over South America during summer. Mon Wea Rev, v. 125, p 279-291, 1997.

Ogunjobi KO, Kim YJ. Ultraviolet (0.280-0.400 m) and broadband solar hourly radiation at Kwangju, South Korea: analysis of r correlation with aerosol optical depth and clearness index. Atmospheric Research 2004;71:193-214.

Oliveira, A.P., Escobedo, J.F., Machado, A.J. A new shadow-ring device for measuring diffuse solar radiation at surface. Journal of Atmospheric and Oceanic Technology, Boston, v.5, p 698-708, 2002.

Orgill, J. F., Hollands, K. G. T. Correlation equation for hourly diffuse radiation on a horizontal surface. Solar Energy, v.19, n.3, p.357-359, 1977.

Papaioannou G, Nikolidakis G, Asimakopoulos D, Retalis D. Photosynthetically active radiation in Athens. Agricultural and Forest Meteorology 1996;81:287–298.

Papaioannou G, Papanikolaou N, Retalis D. Relationships of photosynthetically active radiation and shortwave irradiance. Theoretical and Applied Climatology 1993;48:23-27.

Porfirio, A. C. S.; Souza, J. L.; Lyra, G. B.; Lemes, M. A. M. An assessment of the global UV solar radiation under various sky conditions in Maceió-Northeastern Brazil. Energy, v. 44, p.584-592, 2012.

Rao CRN. Photosynthetically active components of global solar radiation: measurements and model computations. Archives for Meteorology, Geophysics, and Bioclimatology 1984;34:353-64.

Reda, I.M.; Myers, D.R.; Stoffel, T.L. Uncertainty Estimate for the Outdoor Calibration of Solar Pyranometers: NCSLI Measure, The Journal of Measurement Science; 3(4), pp. 58-66, 2008.

Robaa SM. A study of ultraviolet solar radiation at Cairo urban area, Egypt. Solar Energy 2004;77:251-59.

Rossi, T. J.; Escobedo, J. F.; Santos, C. M.; Silva, M. B. P.; Gomes, E. N. Equações de estimativas sazonais para as radiações global, difusa e direta infravermelha em Botucatu/SP/Brasil. Acta de la XXXVIII Reunión de Trabajo de la Asociación Argentina de Energías Renovables y Medio Ambiente, Vol. 3, pp. 11.83-11.94, 2015.

Satyamurty, P.; Nobre, C. A.; Silva Dias, P. L. 1998.Topics: South America. Meteorological Monographs, v.27, n.49, p.119-139, 1998.

Stigter CJ, Musabilha MM. The conservative ratio of photosynthetically active to total radiation in the tropics. Journal of Applied Ecology 1982;19:853-58.

Zhang X, Zhang Y, Zhoub Y. 2000. Masuring and modelling photosynthetically active radiation in Tibet Plateau during April- October. Agricultural Meteorology 2000;102:207-12.

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Publicado

2016-12-13

Edição

Anais CBENS 2016

Seção

Anais