@Article{PereiraMaAbCoStCo:2000:EfBuBi,
author = "Pereira, Enio Bueno and Martins, F. R. and Abreu, S. L. and Couto,
P. and Stuhlmann, R. and Colle, S.",
title = "Effects of burning of biomass on satellite estimations of solar
irradiation in Brazil",
journal = "Solar Energy",
year = "2000",
volume = "68",
number = "1",
pages = "91--107",
month = "Jan.",
keywords = "GEOF{\'{\I}}SICA ESPACIAL, combust{\~a}o, biomassa,
inc{\^e}ncios florestais, radia{\c{c}}{\~a}o solar, efeitos
atmosf{\'e}ricos, aeross{\'o}is, combustion, biomass, forest
fires, solar radiation, atmospheric effects, aerosols.",
abstract = "Atmospheric combustion products from forest fires in the Brazilian
Amazon and `Cerrado' regions during the dry season
(July{\^{\i}}October)induce systematic deviations on the routine
satellite techniques for the assessment of solar energy resource
information. This study, based on clear-sky days, has shown model
overestimations of the incoming solar radiation as high as 44. On
the average, clear-sky model overestimation was four times larger
than that found for clear-sky days in regions outside the
biomass-burning season. A positive correlation between the
combustion products of black carbon, total aerosols, CO, N2O, CH4,
and the number of fire spots counted by the AVHRR sensor from the
NOAA series satellites suggests a possible mechanism for the
parameterization of these effects on the radiation transfer
methods.",
issn = "0038-092X",
label = "9673",
targetfile = "2000_pereira.pdf",
urlaccessdate = "10 maio 2024"
}