1:1.2 Solar Radiation
Extraterrestrial Radiation
The radiant energy from the sun is practically the only source of energy that impacts climatic processes on earth. The solar constant, , is the rate of total solar energy at all wavelengths incident on a unit area exposed normally to rays of the sun at a distance of 1 AU from the sun. Quantifying this value has been the object of numerous studies through the years. The value officially adopted by the Commission for Instruments and Methods of Observation in October 1981 is
On any given day, the extraterrestrial irradiance (rate of energy) on a surface normal to the rays of the sun, , is:
1:1.2.1
where is the eccentricity correction factor of the earth's orbit, and has the same units as the solar constant,.
To calculate the irradiance on a horizontal surface,,
1:1.2.2
where , is defined in equation 1:1.1.3.
The amount of energy falling on a horizontal surface during a day is given by
1:1.2.3
where is the extraterrestrial daily irradiation , SR is sunrise, and SS is sunset. Assuming that remains constant during the one day time step and converting the time to the hour angle, the equation can be written
1:1.2.4
or
1:1.2.5
where is the solar constant (4.921 ), Eis the eccentricity correction factor of the earth's orbit, is the angular velocity of the earth's rotation (), the hour of sunrise, , is defined by equation 1:1.1.4, δ is the solar declination in radians, and is the geographic latitude in radians. Multiplying all the constants together gives
1:1.2.6
see description of .tmp file in the User’s Manual for input and format requirements if measured temperature data is being used.
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