Construção e calibração de um fotómetro solar manual e simples

Abstract

Photometry is the measurement of light from an object. It takes into account the physical characteristics of the radiation as well as the characteristics of the type of detector. It can also be considered as a method to measure the attenuation that solar radiation undergoes when it passes through the atmosphere to the Earth's surface. The aim of solar photometry is to measure the intensity of a beam of light transmitted directly from the sun through the atmosphere. The extent to which molecules and other atmospheric constituents remove light from this beam with dispersion or absorption, is one of the very important optical characteristics of the atmosphere. Knowing the amount of radiation attenuated by the atmosphere, one can determine the main parameters that describe the optical state of the atmosphere such as: total optical thickness, size of the suspended particles as well as their concentration. (Schafer, 2003). In this work, three simple manual solar photometers were built and calibrated to measure the total optical thickness of the atmosphere. For its construction, LEDs were used as an element sensitive to solar radiation, and an operational amplifier for converting the current produced by the LED into electrical voltage, which were then calibrated using the Langley method. Based on the data obtained with these photometers for 8 days in the months of August and September, namely 30.31 / 08/04 and 01.05.15,15,16 9/28/04, the photometers were calibrated and the optical thicknesses were determined of the atmosphere and the voltage that corresponds to solar radiation at the top of the atmosphere. The calibration results are on average 1.11 and 1.09 for the yellow and green LEDs respectively, these values correspond to the extraterrestrial constant measured by these photometers. The results showed a success, given that the extraterrestrial constant obtained with these instruments is within the internationally accepted parameters of 0.20 and 1.4 according to the observed results, it was also concluded that it is possible with this instrument to determine the total optical thickness of the atmosphere that it is a very important parameter in explaining certain air pollution problems. The importance of this work is not only limited to the construction and calibration of the photometer and possible observation of the signal produced by it, it is above all the great importance that the use of this instrument could bring to the students of the country in the perception of certain environmental problems caused by the processes of attenuation of solar radiation.