Investigation of Short Time Scale Variation of Solar Radiation Spectrum in UV, PAR, and NIR Bands due to Atmospheric Aerosol and Water Vapor
Long terms variation of solar insolation had been
widely studied. However, its parallel observations in short time scale
is rather lacking. This paper aims to investigate the short time scale
evolution of solar radiation spectrum (UV, PAR, and NIR bands) due
to atmospheric aerosols and water vapors. A total of 25 days of
global and diffused solar spectrum ranges from air mass 2 to 6 were
collected using ground-based spectrometer with shadowband
technique. The result shows that variation of solar radiation is the
least in UV fraction, followed by PAR and the most in NIR. Broader
variations in PAR and NIR are associated with the short time scale
fluctuations of aerosol and water vapors. The corresponding daily
evolution of UV, PAR, and NIR fractions implies that aerosol and
water vapors variation could also be responsible for the deviation
pattern in the Langley-plot analysis.
[1] J. F. Escobedo, E. N. Gomes, A. P. Oliveira, and J. Soares, "Ratios of
UV, PAR and NIR components to global solar radiation measured at
Botucatu site in Brazil," Renewable Energy, vol. 36, no. 1, pp. 169-178,
Jan. 2011.
[2] J.-M. Yeom, K.-S. Han, and J.-J. Kim, "Evaluation on penetration rate
of cloud for incoming solar radiation using geostationary satellite data,"
J. Atmos. Sci., vol. 48, no. 2, pp. 115-123, May 2012.
[3] C. Wang, Z. Zhang, and W. Tian, "Factors affecting the surface
radiation trends over China between 1960 and 2000," Atmos. Environ.,
vol. 45, no. 14, pp. 2379-2385, 2011.
[4] R. T. Pinker, B. Zhang, and E. G. Dutton, "Do satellites detect trends in
surface solar radiation?," Science, vol. 308, pp. 850-854, May 2005.
[5] Y. Qian, D. P. Kaiser, L. R. Leung, and M. Xu, "More frequent cloudfree
sky and less surface solar radiation in China from 1955 to 2000,"
Geophys. Res. Lett., vol. 33, L01812, pp. 1-4, 2006..
[6] W.-J. Tang, K. Yang, J. Qin, C. C. K. Cheng, and J. He, "Solar radiation
trend across China in recent decades: a revisit with quality-controlled
data," Atmos. Chem. Phys. Discuss. vol. 10, pp. 18389-18418, Aug.
2010.
[7] J. H. W. Chang, J. Dayou, and J. Sentian, "Diurnal evolution of solar
radiation in UV, PAR and NIR bands in high air masses (Accepted for
publication)," Nat. Env. Poll. Tech., to be published.
[8] A. Zain-Ahmed, K. Sopian, Z. Z. Abidin, and M. Y. H. Othman, "The
availability of daylight from tropical skies ÔÇö a case study of Malaysia,"
Renewable Energy, vol. 25, pp. 21-30, 2002.
[9] H. Djamila, C. C. Ming, and S. Kumaresan, "Estimation of exterior
vertical daylight for the humid tropic of Kota Kinabalu city in East
Malaysia," Renewable Energy, vol. 36, no. 1, pp. 9-15, Jan. 2011.
[10] L. Harrison and J. Michalsky, "Objective algorithms for the retrieval of
optical depths from ground-based measurements," Appl. Opt., vol. 33,
no. 22, pp. 5126-32, Aug. 1994.
[11] J. Slusser, J. Gibson, B. David, D. Kolinski, P. Disterhoft, K. Lantz, and
A. Beaubien, "Langley method for calibrating UV filter radiometer," J.
Geophys. Res., vol. 105, no. D4, pp. 4841-49, 2000.
[12] G. Lombardi, E. Mason, C. Lidman, A. O. Jaunsen, and A. Smette, "A
study of NIR atmospheric properties at Paranal Observatory," Astron.
Astrophys., vol. 43, pp. 1-7, 2011.
[13] X. Xia, Z. Li, P. Wang, M. Cribb, H. Chen, and Y. Zhao, "Analysis of
relationships between ultraviolet radiation ( 295 - 385 nm ) and aerosols
as well as shortwave radiation in North China Plain," Ann. Geophys.,
vol. 26, pp. 2043-2052, 2008.
[1] J. F. Escobedo, E. N. Gomes, A. P. Oliveira, and J. Soares, "Ratios of
UV, PAR and NIR components to global solar radiation measured at
Botucatu site in Brazil," Renewable Energy, vol. 36, no. 1, pp. 169-178,
Jan. 2011.
[2] J.-M. Yeom, K.-S. Han, and J.-J. Kim, "Evaluation on penetration rate
of cloud for incoming solar radiation using geostationary satellite data,"
J. Atmos. Sci., vol. 48, no. 2, pp. 115-123, May 2012.
[3] C. Wang, Z. Zhang, and W. Tian, "Factors affecting the surface
radiation trends over China between 1960 and 2000," Atmos. Environ.,
vol. 45, no. 14, pp. 2379-2385, 2011.
[4] R. T. Pinker, B. Zhang, and E. G. Dutton, "Do satellites detect trends in
surface solar radiation?," Science, vol. 308, pp. 850-854, May 2005.
[5] Y. Qian, D. P. Kaiser, L. R. Leung, and M. Xu, "More frequent cloudfree
sky and less surface solar radiation in China from 1955 to 2000,"
Geophys. Res. Lett., vol. 33, L01812, pp. 1-4, 2006..
[6] W.-J. Tang, K. Yang, J. Qin, C. C. K. Cheng, and J. He, "Solar radiation
trend across China in recent decades: a revisit with quality-controlled
data," Atmos. Chem. Phys. Discuss. vol. 10, pp. 18389-18418, Aug.
2010.
[7] J. H. W. Chang, J. Dayou, and J. Sentian, "Diurnal evolution of solar
radiation in UV, PAR and NIR bands in high air masses (Accepted for
publication)," Nat. Env. Poll. Tech., to be published.
[8] A. Zain-Ahmed, K. Sopian, Z. Z. Abidin, and M. Y. H. Othman, "The
availability of daylight from tropical skies ÔÇö a case study of Malaysia,"
Renewable Energy, vol. 25, pp. 21-30, 2002.
[9] H. Djamila, C. C. Ming, and S. Kumaresan, "Estimation of exterior
vertical daylight for the humid tropic of Kota Kinabalu city in East
Malaysia," Renewable Energy, vol. 36, no. 1, pp. 9-15, Jan. 2011.
[10] L. Harrison and J. Michalsky, "Objective algorithms for the retrieval of
optical depths from ground-based measurements," Appl. Opt., vol. 33,
no. 22, pp. 5126-32, Aug. 1994.
[11] J. Slusser, J. Gibson, B. David, D. Kolinski, P. Disterhoft, K. Lantz, and
A. Beaubien, "Langley method for calibrating UV filter radiometer," J.
Geophys. Res., vol. 105, no. D4, pp. 4841-49, 2000.
[12] G. Lombardi, E. Mason, C. Lidman, A. O. Jaunsen, and A. Smette, "A
study of NIR atmospheric properties at Paranal Observatory," Astron.
Astrophys., vol. 43, pp. 1-7, 2011.
[13] X. Xia, Z. Li, P. Wang, M. Cribb, H. Chen, and Y. Zhao, "Analysis of
relationships between ultraviolet radiation ( 295 - 385 nm ) and aerosols
as well as shortwave radiation in North China Plain," Ann. Geophys.,
vol. 26, pp. 2043-2052, 2008.
@article{"International Journal of Engineering, Mathematical and Physical Sciences:54664", author = "Jackson H. W. Chang and Jedol Dayou and Justin Sentian", title = "Investigation of Short Time Scale Variation of Solar Radiation Spectrum in UV, PAR, and NIR Bands due to Atmospheric Aerosol and Water Vapor", abstract = "Long terms variation of solar insolation had been
widely studied. However, its parallel observations in short time scale
is rather lacking. This paper aims to investigate the short time scale
evolution of solar radiation spectrum (UV, PAR, and NIR bands) due
to atmospheric aerosols and water vapors. A total of 25 days of
global and diffused solar spectrum ranges from air mass 2 to 6 were
collected using ground-based spectrometer with shadowband
technique. The result shows that variation of solar radiation is the
least in UV fraction, followed by PAR and the most in NIR. Broader
variations in PAR and NIR are associated with the short time scale
fluctuations of aerosol and water vapors. The corresponding daily
evolution of UV, PAR, and NIR fractions implies that aerosol and
water vapors variation could also be responsible for the deviation
pattern in the Langley-plot analysis.", keywords = "Aerosol, short time scale variation, solar radiation,
water vapor.", volume = "7", number = "1", pages = "51-6", }