Package net.simplace.sim.components.models.sucros.modular.splitting1

Class Sucros2PotEvapTranWater

java.lang.Object

net.simplace.sim.model.FWSimComponent

net.simplace.sim.components.models.sucros.modular.splitting1.Sucros2PotEvapTranWater

All Implemented Interfaces:

net.simplace.sim.util.FWSimFieldContainer

public class Sucros2PotEvapTranWater
extends net.simplace.sim.model.FWSimComponent

Sim component that calculates only the water and evapotranspiration (potential and actual) part of Sucros2

Description

For more Information about the splitting please consult the package info on splitting1

For detailed information about the Sucros2 model please consult the original documentation (S).

References

• (S) SUCROS97: Simulation of crop growth for potential and water-limited production situations
• (P) Simple and Universal Crop growth Simulator (SUCROS)

Author:

Gunther Krauss

See Also:

• net.simplace.sim.components.models.sucros
• net.simplace.sim.components.models.sucros.modular
• net.simplace.sim.components.models.sucros.modular.splitting1

Component Variables

Content Type	Name	Description	Data Type	Unit	Min Value	Max Value	Default Value
constant	cAMTMPT	Table of AMTMP as function of DDTMP	DOUBLEARRAY		-	-	-
constant	cAmaxTempTableFactor	Amax correction factor as function of mean temperature (c.f. AMTMPT)	DOUBLEARRAY	1	-	-	0.0 0.0 1.0 1.0 0.0 0.0
constant	cAmaxTempTableMeanTemperature	Mean temperature for Amax correction factor (c.f. AMTMPT)	DOUBLEARRAY	°C	-	-	-10.0 0.0 10.0 25.0 35.0 50.0
constant	cEDPTFT	Table to read the root activity coefficient	DOUBLEARRAY		-	-	-
constant	cEES	Soil-specific extinction coefficient	DOUBLE	mm-1	-	-	0.002
constant	cEZRTC	constantant for root elongation	DOUBLE	mm d-1	-	-	12.0
constant	cIDSLR	Initial of DSLR	DOUBLE	d	-	-	1.0
constant	cINTC	Interception capacity of precipitation of 1 layer of leaves	DOUBLE	mm d-1	-	-	0.25
constant	cMDRATE	Maximum drainage rate of the subsoil	DOUBLE	mm d-1	-	-	50.0
constant	cRootActivityTableCoefficient	Root activity coefficient as function of RWCL (c.f. EDPTFT)	DOUBLEARRAY	1	-	-	0.0 0.0 0.15 0.6 0.8 1.0 1.0
constant	cRootActivityTableRWCL	RWCL for root activity coefficient (c.f. EDPTFT)	DOUBLEARRAY	1	-	-	-0.5 -0.05 0.0 0.15 0.3 0.5 2.0
constant	cTKL1	Thickness of the soil layer 1	DOUBLE	mm	-	-	200.0
constant	cTKL2	Thickness of the soil layer 2	DOUBLE	mm	-	-	400.0
constant	cTKL3	Thickness of the soil layer 3	DOUBLE	mm	-	-	600.0
constant	cTKL4	Thickness of the soil layer 4	DOUBLE	mm	-	-	800.0
constant	cTRANSC	Characteristic potential transpiration rate (see Table 2.2)	DOUBLE	mm d-1	-	-	9.0
constant	cWCAD1	Volumetric water content in each soil layer at dry air	DOUBLE	cm3 cm-3	-	-	0.025
constant	cWCAD2	Volumetric water content in each soil layer at dry air	DOUBLE	cm3 cm-3	-	-	0.025
constant	cWCAD3	Volumetric water content in each soil layer at dry air	DOUBLE	cm3 cm-3	-	-	0.025
constant	cWCAD4	Volumetric water content in each soil layer at dry air	DOUBLE	cm3 cm-3	-	-	0.025
constant	cWCFC1	Volumetric water content at field capacity in each soil layer	DOUBLE	cm3 cm-3	-	-	0.23
constant	cWCFC2	Volumetric water content at field capacity in each soil layer	DOUBLE	cm3 cm-3	-	-	0.23
constant	cWCFC3	Volumetric water content at field capacity in each soil layer	DOUBLE	cm3 cm-3	-	-	0.23
constant	cWCFC4	Volumetric water content at field capacity in each soil layer	DOUBLE	cm3 cm-3	-	-	0.23
constant	cWCLI1	Initial value for WCL1	DOUBLE	cm3 cm-3	-	-	0.2
constant	cWCLI2	Initial value for WCL2	DOUBLE	cm3 cm-3	-	-	0.2
constant	cWCLI3	Initial value for WCL3	DOUBLE	cm3 cm-3	-	-	0.2
constant	cWCLI4	Initial value for WCL4	DOUBLE	cm3 cm-3	-	-	0.2
constant	cWCST1	Volumetric water content at saturation in each soil layer	DOUBLE	cm3 cm-3	-	-	0.4
constant	cWCST2	Volumetric water content at saturation in each soil layer	DOUBLE	cm3 cm-3	-	-	0.4
constant	cWCST3	Volumetric water content at saturation in each soil layer	DOUBLE	cm3 cm-3	-	-	0.4
constant	cWCST4	Volumetric water content at saturation in each soil layer	DOUBLE	cm3 cm-3	-	-	0.4
constant	cWCWET1	Volumetric water content where water logging begins	DOUBLE	cm3 cm-3	-	-	0.35
constant	cWCWET2	Volumetric water content where water logging begins	DOUBLE	cm3 cm-3	-	-	0.35
constant	cWCWET3	Volumetric water content where water logging begins	DOUBLE	cm3 cm-3	-	-	0.35
constant	cWCWET4	Volumetric water content where water logging begins	DOUBLE	cm3 cm-3	-	-	0.35
constant	cWCWP1	Volumetric water content at wilting point in each soil layer	DOUBLE	cm3 cm-3	-	-	0.075
constant	cWCWP2	Volumetric water content at wilting point in each soil layer	DOUBLE	cm3 cm-3	-	-	0.075
constant	cWCWP3	Volumetric water content at wilting point in each soil layer	DOUBLE	cm3 cm-3	-	-	0.075
constant	cWCWP4	Volumetric water content at wilting point in each soil layer	DOUBLE	cm3 cm-3	-	-	0.075
constant	cZRTI	Initial value for ZRT	DOUBLE	mm	-	-	5.0
constant	cZRTMC	Maximum value for rooted depth as crop characteristic	DOUBLE	mm	-	-	1200.0
constant	cZRTMS	Maximum value for rooted depth as soil characteristic	DOUBLE	mm	-	-	1200.0
input	iDS0	Daily extraterrestrial radiation	DOUBLE	J m-2 s-1	-	-	0.0
input	iDVS	Development stage of the crop	DOUBLE	-	-	-	0.0
input	iLAI	Leaf area index	DOUBLE	m2 m-2	-	-	0.0
input	iRAIN	Daily precipitation (from AB/TPE weather system)	DOUBLE		-	-	0.0
input	iRDD	Daily solar radiation	DOUBLE	J m-2 d-1	-	-	0.0
input	iTMMN	Daily minimum temperature (from AB/TPE weather system)	DOUBLE	°	-	-	0.0
input	iTMMX	Daily maximum temperature (from AB/TPE weather system)	DOUBLE	°	-	-	0.0
input	iVP	Actual vapour pressure (from AB/TPE weather system)	DOUBLE	kPa	-	-	0.0
input	iWN	Wind speed (from AB/TPE weather system)	DOUBLE	m s-1	-	-	0.0
state	sCumulativeActualSoilEvaporation	Cumulative actual soil evaporation	DOUBLE	mm	-	-	0.0
state	sCumulativeActualTranspiration	Total amount of water transpired by the crop	DOUBLE	mm	-	-	0.0
state	sCumulativePotentialSoilEvaporation	Cumulative potential ecaporatio	DOUBLE	mm	-	-	0.0
state	sCumulativePotentialTranspiration	Cumulative actual soil evaporation	DOUBLE	mm	-	-	0.0
state	sDSLR	Number of days since last rain	DOUBLE	d	-	-	0.0
state	sTAINTC	Total amount of rainfall intercepted by the canopy	DOUBLE	mm	-	-	0.0
state	sTDRAIN	Total drainage	DOUBLE	mm	-	-	0.0
state	sTEVAPD	Cumulative potential soil evaporation due to drying power of the air	DOUBLE	mm	-	-	0.0
state	sTEVAPR	Cumulative potential soil evaporation due to radiation	DOUBLE	mm	-	-	0.0
state	sTPENM	Cumulative potential evapotranspiration	DOUBLE	mm	-	-	0.0
state	sTRAIN	Total precipitation	DOUBLE	mm	-	-	0.0
state	sTRNOFF	Total runoff	DOUBLE	mm	-	-	0.0
state	sWL1	Amount of water in soil compartment 1	DOUBLE	mm	-	-	0.0
state	sWL2	Amount of water in soil compartment 2	DOUBLE	mm	-	-	0.0
state	sWL3	Amount of water in soil compartment 3	DOUBLE	mm	-	-	0.0
state	sWL4	Amount of water in soil compartment 4	DOUBLE	mm	-	-	0.0
state	sZRT	Rooted depth	DOUBLE	mm	-	-	0.0
rate	rAINTC	Actual amount of precipitation intercepted by the canopy	DOUBLE	mm d-1	-	-	0.0
rate	rActualSoilEvaporation	Actual soil evaporation rate, derived from Penman evaporation	DOUBLE	mm d-1	-	-	0.0
rate	rActualTranspiration	Total actual transpiration rate of the canopy	DOUBLE	mm d-1	-	-	0.0
rate	rDRAIN	Drainage rate below the root zone	DOUBLE	mm d-1	-	-	0.0
rate	rEVAPD	Potential soil evaporation due to drying power of the air	DOUBLE	mm d-1	-	-	0.0
rate	rEVAPR	Potential soil evaporation due to radiation	DOUBLE	mm d-1	-	-	0.0
rate	rEZRT	Rate of root elogation	DOUBLE	mm d-1	-	-	0.0
rate	rPENMAN	Penman reference value for potential evaporation	DOUBLE	mm d-1	-	-	0.0
rate	rPotentialSoilEvaporation	Potential soil evaporation	DOUBLE	mm d-1	-	-	0.0
rate	rPotentialTranspiration	Potential transpiration rate derived from Penman evaporation	DOUBLE	mm d-1	-	-	0.0
rate	rRDSLR	Day with no rain	DOUBLE	d d-1	-	-	0.0
rate	rRNOFF	Runoff	DOUBLE	mm d-1	-	-	0.0
rate	rRRAIN	Daily precipitation	DOUBLE	mm d-1	-	-	0.0
rate	rRWL1	Rate of increase for WL1	DOUBLE	mm d-1	-	-	0.0
rate	rRWL2	Rate of increase for WL2	DOUBLE	mm d-1	-	-	0.0
rate	rRWL3	Rate of increase for WL3	DOUBLE	mm d-1	-	-	0.0
rate	rRWL4	Rate of increase for WL4	DOUBLE	mm d-1	-	-	0.0
out	CHECK	Variable to check the water balance (should be zero)	DOUBLE	mm	-	-	0.0
out	CROPF	Crop factor for crop water requirement	DOUBLE		-	-	0.0
out	TKLT	Sum of thickness of the soil layers	DOUBLE	mm	-	-	0.0
out	WCUMI	Initial value for WCUM	DOUBLE	mm	-	-	0.0
out	WL1I	Initial amount for WL1	DOUBLE	mm	-	-	0.0
out	WL2I	Initial amount for WL2	DOUBLE	mm	-	-	0.0
out	WL3I	Initial amount for WL3	DOUBLE	mm	-	-	0.0
out	WL4I	Initial amount for WL4	DOUBLE	mm	-	-	0.0
out	ZRTM	Maximum value for rooted depth	DOUBLE	mm	-	-	0.0

Nested Class Summary

Nested classes/interfaces inherited from class net.simplace.sim.model.FWSimComponent

net.simplace.sim.model.FWSimComponent.TEST_STATE

Field Summary

Fields inherited from class net.simplace.sim.model.FWSimComponent

iFieldMap, iFrequence, iInputMap, iJexlRule, iMasterComponentGroup, iName, iOrderNumber, isComponentGroup, iSimComponentElement, iSimModel, iVarMap

Constructor Summary

Constructors

Constructor	Description
Sucros2PotEvapTranWater()	Empty constructor used by class.forName()

Method Summary

Modifier and Type	Method	Description
protected void	calculateRates()
protected net.simplace.sim.model.FWSimComponent	clone(net.simplace.sim.util.FWSimVarMap aVarMap)
HashMap<String,net.simplace.sim.util.FWSimVariable<?>>	createVariables()	Create the FWSimVariables as interface for this SimComponent
HashMap<String,net.simplace.sim.util.FWSimVariable<?>>	fillTestVariables(int aParamIndex, net.simplace.sim.model.FWSimComponent.TEST_STATE aDefineOrCheck)	called for single component test to check the components algorithm.
protected void	init()	Initializes the fields by getting input and output FWSimVariables from VarMap
void	initializeVariables()
protected void	integrateStates()
protected void	process()	Process the algorithm and write the results back to VarMap

Methods inherited from class net.simplace.sim.model.FWSimComponent

addVariable, bind, checkCondition, createSimComponent, createSimComponent, createSimComponent, createSimComponent, doProcess, getConstantVariables, getContentType, getCreateFormXML, getDescription, getEditFormXML, getFieldMap, getFrequence, getFrequenceRuleScript, getInputs, getInputVariables, getMasterComponentGroup, getName, getOrderNumber, getOutputVariables, getVariable, getVariableField, getVarMap, initialize, isConditionCheck, isVariableAvailable, performLinks, performLinks, readInputs, removeVariable, reset, runComponentTest, setVariablesDefault, toComponentLinkingXML, toDocXML, toGroupXML, toOutputDefinitionXML, toResourcesDataXML, toResourcesDefinitionXML, toString, toXML, writeVarInfos

Methods inherited from class java.lang.Object

clone, equals, finalize, getClass, hashCode, notify, notifyAll, wait, wait, wait

Constructor Details

Sucros2PotEvapTranWater

public Sucros2PotEvapTranWater()

Empty constructor used by class.forName()

Method Details

createVariables

public HashMap<String,net.simplace.sim.util.FWSimVariable<?>> createVariables()

Create the FWSimVariables as interface for this SimComponent

Specified by:

createVariables in interface net.simplace.sim.util.FWSimFieldContainer

Specified by:

createVariables in class net.simplace.sim.model.FWSimComponent

See Also:

• FWSimComponent.createVariables()

init

protected void init()

Initializes the fields by getting input and output FWSimVariables from VarMap

Specified by:

init in class net.simplace.sim.model.FWSimComponent

See Also:

• FWSimComponent.init()

initializeVariables

public void initializeVariables()

process

protected void process()

Process the algorithm and write the results back to VarMap

Specified by:

process in class net.simplace.sim.model.FWSimComponent

See Also:

• FWSimComponent.process()

calculateRates

protected void calculateRates()

integrateStates

protected void integrateStates()

fillTestVariables

public HashMap<String,net.simplace.sim.util.FWSimVariable<?>> fillTestVariables(int aParamIndex,
 net.simplace.sim.model.FWSimComponent.TEST_STATE aDefineOrCheck)

called for single component test to check the components algorithm.

Specified by:

fillTestVariables in class net.simplace.sim.model.FWSimComponent

See Also:

• net.simplace.sim.util.FWSimFieldContainer#fillTestVariables(int aParamIndex, TEST_STATE aDefineOrCheck)

clone

protected net.simplace.sim.model.FWSimComponent clone(net.simplace.sim.util.FWSimVarMap aVarMap)

Specified by:

clone in class net.simplace.sim.model.FWSimComponent

See Also:

• FWSimComponent.clone(net.simplace.sim.util.FWSimVarMap)