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net.simplace.usermodules.ET_Study.ReferenceETPriestlyTaylor

Calculates reference evapotranspiration ET0 by Priestly Taylor (1972) method using solar radiation and temperature

Priestly Taylor (1972)

Uses the Priestly Taylor (1972) formula for ET0 calculation from temperature and solar radiation

\( ET0 = \)

== Notice:

\( ET0 = \)

To calculate this formula, use SolarRadiationFromTemperature module together with ReferenceETPriestlyTaylor)

References

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Component Variables

Content Type	Name	Description	Data Type	Unit	Min Value	Max Value	Default Value
constant	cAlphaPT	Priestly-Taylor coefficient	DOUBLE	1	0.0	-	1.26
constant	cAltitude	Altitude	DOUBLE	m	-	-	0.0
input	iNetRadiation	net radiation	DOUBLE	MJ/(m2 d)	-	-	0.0
input	iTMax	maximum daily temperature	DOUBLE	°C	-	-	0.0
input	iTMin	minimum daily temperature	DOUBLE	°C	-	-	0.0
out	ReferenceCropEvapotranspiration	reference evapotranspiration (ET0)	DOUBLE	mm/d	-	-	0.0

public class ReferenceETPriestlyTaylor extends
net.simplace.simulation.model.FWSimComponent {
// Public Constructors
public ReferenceETPriestlyTaylor();

// Public Instance Methods

public HashMap createVariables(); // Defines
net.simplace.simulation.model.FWSimComponent

Create the FWSimVariables as interface for this SimComponent

// Protected Instance Methods

protected void init(); // Defines
net.simplace.simulation.model.FWSimComponent

Initializes the fields by getting input and output FWSimVariables from VarMap

protected void process(); // Defines
net.simplace.simulation.model.FWSimComponent

Process the algorithm and write the results back to VarMap

protected FWSimComponent clone(FWSimVarMap aVarMap);
// Defines net.simplace.simulation.model.FWSimComponent

creates a clone from this SimComponent for use in other threads

}

Hierarchy: java.lang.Object - net.simplace.simulation.model.FWSimComponent (net.simplace.simulation.util.FWSimFieldContainer) - ReferenceETPriestlyTaylor