Campbell Q-7.1 Manual del operador descargar pdf (Pagina 63)

Manual

in which:

E = evaporation rate [M day

-1

]

= is Latent Heat of Vaporization [J g

-1

]

= mass density of water [g m

-3

]

= gradient of the saturated vapor pressure versus temperature [kPa °C

-1

]

y = psychrometric constant [kPa °C

-1

]

= net solar radiation [J M

-2

day

-1

]

ES = change in energy storage [J M

-2

Day

-1

]

Net Solar Radiation R

= R

net-short-wave

+ R

net-long-wave

Using the formulas and box-calculations described in the previous text, it follows that:

net-short-wave

= R

short-wave-in

x (1 – a)

net-short-wave

= 22.8 x 10

x (1 – 0.08) = 21.0 x 10

[J M

-2

day

-1

]

The net long wave radiation was calculated in BOX 3, and resulted in:

net-long-wave

= 7.73 x 10

[J M

-2

day

-1

]

Hence,

= 21.0 x 10

– 7.73 x 10

= 13.27 x 10

[J M

-2

day

-1

]

Gradient of Saturated Vapor Pressure versus Temperature

Using the results from BOX2, it follows that:

= 0.145 [kPa °C

-1

]

Psychrometric Constant y

y = 0.066 [kPa °C

-1

]

Mass Density of Water w

= 0.99836 x 10

[g m

-3

]

Latent Heat of Vaporization

Using the results from BOX1, it follows that:

= 2450 [J g

-1

]

Change in Energy Storage ES

The change in energy storage was calculated in BOX 4, and resulted in:

ES = 3.13 x 10

[J M

-2

Day

-1

]

Annexes

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Campbell Q-7.1 Manual del operador Pagina 63

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