Exemplo n.º 1
0
 public void  CalculateModel(EnergyBalanceState s, EnergyBalanceState s1, EnergyBalanceRate r, EnergyBalanceAuxiliary a)
 {
     _DiffusionLimitedEvaporation.CalculateModel(s, s1, r, a);
     _Conductance.CalculateModel(s, s1, r, a);
     _NetRadiation.CalculateModel(s, s1, r, a);
     _NetRadiationEquivalentEvaporation.CalculateModel(s, s1, r, a);
     _PriestlyTaylor.CalculateModel(s, s1, r, a);
     _Penman.CalculateModel(s, s1, r, a);
     _EvapoTranspiration.CalculateModel(s, s1, r, a);
     _PotentialTranspiration.CalculateModel(s, s1, r, a);
     _PtSoil.CalculateModel(s, s1, r, a);
     _SoilEvaporation.CalculateModel(s, s1, r, a);
     _SoilHeatFlux.CalculateModel(s, s1, r, a);
     _CropHeatFlux.CalculateModel(s, s1, r, a);
     _CanopyTemperature.CalculateModel(s, s1, r, a);
 }
Exemplo n.º 2
0
 public void CalculateModel % s(EnergybalanceState s, EnergybalanceState s1, EnergybalanceRate r, EnergybalanceAuxiliary a)
 {
     _Diffusionlimitedevaporation.CalculateModel(s, s1, r, a);
     _Conductance.CalculateModel(s, s1, r, a);
     _Netradiation.CalculateModel(s, s1, r, a);
     _Netradiationequivalentevaporation.CalculateModel(s, s1, r, a);
     _Priestlytaylor.CalculateModel(s, s1, r, a);
     _Penman.CalculateModel(s, s1, r, a);
     _Evapotranspiration.CalculateModel(s, s1, r, a);
     _Potentialtranspiration.CalculateModel(s, s1, r, a);
     _Ptsoil.CalculateModel(s, s1, r, a);
     _Soilevaporation.CalculateModel(s, s1, r, a);
     _Soilheatflux.CalculateModel(s, s1, r, a);
     _Cropheatflux.CalculateModel(s, s1, r, a);
     _Canopytemperature.CalculateModel(s, s1, r, a);
 }