In the nighttime – Campbell Scientific VisualWeather Software User Manual

Appendix A. Evapotranspiration, Vapor Pressure Deficit, and Crop Water Needs

2b. Calculation of the Radiation Ratio (Rs/Rso)

Rs = measured value of solar radiation (MJ/m

2

/hour)

Rso = clear sky solar radiation; i.e., solar radiation with no cloud cover

(MJ/m

2

/hour)

The general equation used to calculate the solar radiation is:

Rs = (a

s

+ b

s

(n/N))R

a

(4)

where

a

s

= constant = 0.25

b

s

= constant= 0.50

n = actual sunshine hours on a given day
N = expected sunshine hours on a given day
R

a

= extraterrestrial radiation

If the day is entirely clear then n = N and

Rs = (a

s

+ b

s

)R

a

= (0.25 + 0.50)Ra ˜ 0.75Ra = Rso.

If the day is entirely cloudy, then n = 0 and Rs = (a

s

)R

a

˜ 0.25 Ra.

Therefore the ratio, Rs/Rso on a completely cloudy day would be:

Rs/Rso ˜ 0.25 Ra/0.75 Ra ˜ 0.33 about 0.3.

Therefore, 0.3 < Rs/Rso < 1.0 define limits of the ratio.

In the nighttime

Rs = 0 at nighttime. However, Rs/Rso should not be taken to be 0 or 0.3,
since the sky may be cloud free. For the nighttime the radiation ratio 2 to
3 hours before sunset is used. To identify this radiation ratio 2 to 3 hours
before sunset, the following algorithm is used:

When the solar time angle (

ω), satisfies the following condition, the

radiation ratio is saved and used throughout the night:

(

ω

s

- 0.79) <=

ω <= (ω

s

- 0.52)

where

ω

s

is the sunset hour angle (in radians).

ω

s

is calculated as follows:

ω

s

=

π/2 - arctan[ tan(φ)tan(δ) / X

0.5

]

(5)

where X = 1 -[ tan(

φ)]

2

[tan(

δ)]

2

and X = 0.00001 if X <= 0

2c. Calculations for R

SO

(clear sky radiation).

Measured values of solar radiation, R

S

, are actually extraterrestrial

radiation (Ra) reaching the earth corrected by daily conditions; i.e.,
whether a particular day is clear or overcast. The following equation
shows this relation:

R

S

= (a

S

+ b

S

(n/N)) R

a

(6)

A-4