Energy balance
options.calc_ebal
Definition
Net radiation (Rn):
>>> Rn = (SW_in - SW_out) + (LW_in - LW_out)
SW - shortwave radiation (400-2400 nm)LW - longwave (thermal) radiation
Net radiation can be partitioned into 3 (4) heat fluxes:
>>> Rn = H + lE + G
H - sensible heatlE - latent heatG - ground heat flux
SCOPE
With options.calc_ebal energy balance loop is started until the energy balance is closed (net radiation become equal to heat fluxes).
To close energy balance leaf temperatures and Monin-Obukhov length L are iteratively adjusted.
This how it looks like:
Leaf temperatures are calculated by biochemical() or biochemical_MD12().
Initial values of soil and leaf temperatures are equal to ambient temperature (Ta).
Monin-Obukhov length influences on aerodynamic resistances values.
The results of energy balance calculations are the following:
variable |
units |
canopy |
soil |
total |
|---|---|---|---|---|
H |
W m-2 |
115.5 |
19.5 |
135.0 |
lE |
W m-2 |
146.2 |
44.9 |
191.1 |
G |
W m-2 |
- |
35.0 |
35.0 |
Rn |
W m-2 |
261.7 |
100.1 |
361.8 |
Also SCOPE calculates photosynthesis of canopy which in this case was 18.7 umol m-2 s-1
Radiation budget is also calculated by SCOPE:
variable |
units |
in |
out |
net |
|---|---|---|---|---|
SW |
W m-2 |
600 |
104.4 |
495.6 |
LW |
W m-2 |
300 |
434.0 |
-134.0 |
Rn |
W m-2 |
- |
- |
361.8 |