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); }
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); }