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HMC_Module_Phys_Convolution_Apps_Horton.f90
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!------------------------------------------------------------------------------------
! File: HMC_Module_Phys_Convolution_Apps_Horton.f90
!
! Author(s): Fabio Delogu, Francesco Silvestro, Simone Gabellani
! Date: 20190410
!
! Convolution Apps Horton subroutine(s) for HMC model
!------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------
! Module Header
module HMC_Module_Phys_Convolution_Apps_Horton
!------------------------------------------------------------------------------------
! External module(s)
use HMC_Module_Namelist, only: oHMC_Namelist
use HMC_Module_Vars_Loader, only: oHMC_Vars
use HMC_Module_Tools_Debug
use HMC_Module_Tools_Generic, only: getIntValue, getIntRange
! Implicit none for all subroutines in this module
implicit none
!------------------------------------------------------------------------------------------
contains
!------------------------------------------------------------------------------------------
! Subroutine for calculating infiltration/runoff (using horton modified method) channel network
subroutine HMC_Phys_Convolution_Apps_Horton_ChannelNetwork(iID, iRows, iCols, dDtDataForcing, dDtAct, iTq, iTime, iNTime)
!------------------------------------------------------------------------------------------
! Variable(s) declaration
integer(kind = 4) :: iID, iRows, iCols
real(kind = 4) :: dDtDataForcing, dDtAct
real(kind = 4) :: dVarVErr
real(kind = 4) :: dDtHorton
real(kind = 4) :: dDomainArea
real(kind = 4), dimension (iRows, iCols) :: a2dVarVTot, a2dVarVTotPStep
real(kind = 4), dimension (iRows, iCols) :: a2dVarVSub
real(kind = 4), dimension (iRows, iCols) :: a2dVarRain, a2dVarIntensity
!real(kind = 4), dimension (iRows, iCols) :: a2dVarB, a2dVarCh
real(kind = 4), dimension (iRows, iCols) :: a2dVarG, a2dVarVErr
real(kind = 4), dimension (iRows, iCols) :: a2dVarRouting, a2dVarFlowDeep
integer(kind = 4) :: iTq, iTime, iNTime
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Variable(s) initialization
a2dVarVTot = 0.0; a2dVarVTotPStep = 0.0; a2dVarVSub = 0.0
a2dVarRain = 0.0; a2dVarIntensity = 0.0;
a2dVarVErr = 0.0;
a2dVarRouting = 0.0; a2dVarFlowDeep = 0.0;
!a2dVarG = 0.0; a2dVarCh = 0.0; dVarVErr = 0.0;
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Integrating step (horton)
dDtHorton = dDtAct
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Domain Area
dDomainArea = oHMC_Vars(iID)%dDomainArea
! Variable(s) from global declaration
a2dVarVTot = oHMC_Vars(iID)%a2dVTot
a2dVarVSub = oHMC_Vars(iID)%a2dVSub
a2dVarRouting = oHMC_Vars(iID)%a2dRouting
a2dVarFlowDeep = oHMC_Vars(iID)%a2dFlowDeep
! Extracting dynamic forcing variable(s)
a2dVarRain = oHMC_Vars(iID)%a2dRain
where (a2dVarRain.lt.0.0.or.a2dVarRain.gt.845.0) a2dVarRain = 0.0
! Info start
if (iDEBUG.gt.0) then
call mprintf(.true., iINFO_Extra, ' Phys :: Convolution :: Horton ... ' )
endif
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Total volume previous step
a2dVarVTotPStep = a2dVarVTot
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Horton filter equation
if (oHMC_Namelist(iID)%iFlagInfiltRateVariable .eq. 2) then
where (oHMC_Vars(iID)%a2dS.gt.0.0)
a2dVarG = oHMC_Vars(iID)%a2dCostF1 + (oHMC_Vars(iID)%a2dCostF - oHMC_Vars(iID)%a2dCostF1) * &
exp( -oHMC_Namelist(iID)%dPowVarInfiltRate * &
( a2dVarVTot / (oHMC_Vars(iID)%a2dS-a2dVarVTot) ) )
elsewhere
a2dVarG = 0.0
endwhere
else
where (oHMC_Vars(iID)%a2dS.gt.0.0)
a2dVarG = oHMC_Vars(iID)%a2dCostF - &
(oHMC_Vars(iID)%a2dCostF - oHMC_Vars(iID)%a2dCostF1)/oHMC_Vars(iID)%a2dS*a2dVarVTot
elsewhere
a2dVarG = 0.0
endwhere
endif
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Debug
if (iDEBUG.gt.0) then
call mprintf(.true., iINFO_Extra, ' ========= HORTON START =========== ')
call mprintf(.true., iINFO_Extra, checkvar(a2dVarRouting, oHMC_Vars(iID)%a2iMask, 'ROUTING START') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarIntensity, oHMC_Vars(iID)%a2iMask, 'INTENSITY START') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarVTot, oHMC_Vars(iID)%a2iMask, 'VTOT START') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarVSub, oHMC_Vars(iID)%a2iMask, 'VSUB START') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarFlowDeep, oHMC_Vars(iID)%a2iMask, 'FLOWDEEP START') )
call mprintf(.true., iINFO_Extra, checkvar(oHMC_Vars(iID)%a2dHydro, oHMC_Vars(iID)%a2iMask, 'HYDRO UPD START') )
call mprintf(.true., iINFO_Extra, checkvar(oHMC_Vars(iID)%a2dHydroPrev, oHMC_Vars(iID)%a2iMask, 'HYDRO PREV START') )
call mprintf(.true., iINFO_Extra, checkvar(oHMC_Vars(iID)%a2dQDisOut, oHMC_Vars(iID)%a2iMask, 'QOUT START (Qtot)') )
call mprintf(.true., iINFO_Extra, ' ')
call mprintf(.true., iINFO_Extra, checkvar(oHMC_Vars(iID)%a2dCostChFix, oHMC_Vars(iID)%a2iMask, 'CHFIX ') )
call mprintf(.true., iINFO_Extra, checkvar(oHMC_Vars(iID)%a2dCostF, oHMC_Vars(iID)%a2iMask, 'COSTF ') )
call mprintf(.true., iINFO_Extra, checkvar(oHMC_Vars(iID)%a2dCostF1, oHMC_Vars(iID)%a2iMask, 'COSTF1 ') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarG, oHMC_Vars(iID)%a2iMask, 'G ') )
!call mprintf(.true., iINFO_Extra, checkvar(a2dVarB, oHMC_Vars(iID)%a2iMask, 'B ') )
!call mprintf(.true., iINFO_Extra, checkvar(a2dVarCh, oHMC_Vars(iID)%a2iMask, 'CH ') )
call mprintf(.true., iINFO_Extra, checkvar(oHMC_Vars(iID)%a2dS, oHMC_Vars(iID)%a2iMask, 'S ') )
call mprintf(.true., iINFO_Extra, checkvar(oHMC_Vars(iID)%a2dCoeffResol, oHMC_Vars(iID)%a2iMask, 'COEFF RESOL') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarRain, oHMC_Vars(iID)%a2iMask, 'RAIN ') )
call mprintf(.true., iINFO_Extra, ' ')
endif
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Defining subterranean volume
where ( (a2dVarVTot.lt.oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS) .and. (oHMC_Vars(iID)%a2iMask.gt.0.0) )
a2dVarVSub = 0.0
elsewhere(oHMC_Vars(iID)%a2iMask.gt.0.0)
! *dDth/3600 perch� a2dCostF1 � in mm/h ma lavoro in mm/dDth
a2dVarVSub = oHMC_Vars(iID)%a2dF2*(a2dVarVTot - oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS)/ &
oHMC_Vars(iID)%a2dS*dDtHorton/3600
! giulia prova
!a2dVarVSub = 100.0/(1 - oHMC_Vars(iID)%a2dCt)*(a2dVarVTot - oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS)/ &
! oHMC_Vars(iID)%a2dS*dDtHorton/3600
endwhere
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Evaluating intensity --> horton initialization = rain + routing drained cells
a2dVarIntensity = a2dVarRain*3600.0/dDtDataForcing + &
oHMC_Vars(iID)%a2dCoeffResol*a2dVarRouting/dDtHorton*3600.0 + &
a2dVarFlowDeep*3600.0/dDtDataForcing
! Evaluating intensity ( --- development mode --- )
!a2dVarIntensity = a2dVarRain*3600.0/dDtDataForcing + &
! oHMC_Vars(iID)%a2dCoeffResol*(a2dVarRouting/dDtHorton*3600.0 + &
! a2dVarFlowDeep*3600.0/dDtDataForcing)
!-------------------------------------------------------------------------------
! DA QUI GIULIA - ATTENZIONE costruito senza WiltingPoint (anche il vecchio)!!!
!------------------------------------------------------------------------------------------
! Intensity Evaluation
! Condition ----> Intensity == 0
where ( (a2dVarIntensity.eq.0.0) .and. (oHMC_Vars(iID)%a2iMask.gt.0.0) .and. &
(a2dVarVTot.ge.oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS) )
where (a2dVarVtot.ge.(oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS + a2dVarVSub))
a2dVarVTot = a2dVarVTot - a2dVarVSub
elsewhere
a2dVarVSub = a2dVarVTot - oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS
a2dVarVTot = oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS
endwhere
endwhere
! Condition ----> 0 < Intensity <= G
where ( (a2dVarIntensity.gt.0.0) .and. (a2dVarIntensity.le.a2dVarG) .and. (oHMC_Vars(iID)%a2iMask.gt.0.0) )
where ( (a2dVarVTot.lt.oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS) .and. (oHMC_Vars(iID)%a2iMask.gt.0.0) )
a2dVarVTot = a2dVarVTot + a2dVarRain/dDtDataForcing*dDtHorton + &
oHMC_Vars(iID)%a2dCoeffResol*a2dVarRouting + &
a2dVarFlowDeep/dDtDataForcing*dDtHorton
a2dVarIntensity = 0.0
elsewhere(oHMC_Vars(iID)%a2iMask.gt.0.0)
a2dVarVTot = a2dVarVTot + a2dVarIntensity*dDtHorton/3600.0
a2dVarIntensity = 0.0
where (a2dVarVtot.ge.(oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS + a2dVarVSub))
a2dVarVTot = a2dVarVTot - a2dVarVSub
elsewhere
a2dVarVSub = a2dVarVTot - oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS
a2dVarVTot = oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS
endwhere
endwhere
endwhere
! Condition ----> Intensity > G
where ( (a2dVarIntensity.gt.a2dVarG) .and. (oHMC_Vars(iID)%a2iMask.gt.0.0) )
where ( (a2dVarVTot.lt.oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS) .and. (oHMC_Vars(iID)%a2iMask.gt.0.0) )
a2dVarVTot = a2dVarVTot + a2dVarG*dDtHorton/3600.0
elsewhere (oHMC_Vars(iID)%a2iMask.gt.0.0)
a2dVarVTot = a2dVarVTot + a2dVarG*dDtHorton/3600.0
endwhere
where (a2dVarVtot.ge.(oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS + a2dVarVSub))
a2dVarVTot = a2dVarVTot - a2dVarVSub
elsewhere
a2dVarVSub = a2dVarVTot - oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS
a2dVarVTot = oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS
endwhere
a2dVarIntensity = a2dVarIntensity - a2dVarG
endwhere
!------------------------------------------------------------------------------------------
! FINE VERSIONE GIULIA
!!------------------------------------------------------------------------------------------
!! Intensity Evaluation
!! Condition ----> Intensity == 0
!where ( (a2dVarIntensity.eq.0.0) .and. (oHMC_Vars(iID)%a2iMask.gt.0.0) .and. &
! (a2dVarVTot.ge.oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS) )
!
! a2dVarVTot = a2dVarVTot - oHMC_Vars(iID)%a2dF2*(a2dVarVTot - oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS)/ &
! oHMC_Vars(iID)%a2dS*dDtHorton/3600.0
!
!endwhere
!
!! Condition ----> 0 < Intensity <= G
!where ( (a2dVarIntensity.gt.0.0) .and. (a2dVarIntensity.le.a2dVarG) .and. (oHMC_Vars(iID)%a2iMask.gt.0.0) )
!
! where ( (a2dVarVTot.lt.oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS) .and. (oHMC_Vars(iID)%a2iMask.gt.0.0) )
! a2dVarVTot = a2dVarVTot + a2dVarRain/dDtDataForcing*dDtHorton + &
! oHMC_Vars(iID)%a2dCoeffResol*a2dVarRouting + &
! a2dVarFlowDeep/dDtDataForcing*dDtHorton
! a2dVarIntensity = 0.0
! elsewhere(oHMC_Vars(iID)%a2iMask.gt.0.0)
! a2dVarVTot = a2dVarVTot + a2dVarIntensity*dDtHorton/3600.0 - a2dVarVSub
! a2dVarIntensity = 0.0
! endwhere
!
!endwhere
!
!! Condition ----> Intensity > G
!where ( (a2dVarIntensity.gt.a2dVarG) .and. (oHMC_Vars(iID)%a2iMask.gt.0.0) )
!
! where ( (a2dVarVTot.lt.oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS) .and. (oHMC_Vars(iID)%a2iMask.gt.0.0) )
! a2dVarVTot = a2dVarVTot + a2dVarG*dDtHorton/3600.0
! elsewhere (oHMC_Vars(iID)%a2iMask.gt.0.0)
! a2dVarVTot = a2dVarVTot + a2dVarG*dDtHorton/3600.0 - a2dVarVSub
! endwhere
!
! a2dVarIntensity = a2dVarIntensity - a2dVarG
!
!endwhere
!!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Updating intensity variable
where ( (a2dVarVTot.gt.oHMC_Vars(iID)%a2dS) .and. (oHMC_Vars(iID)%a2iMask.gt.0.0) )
a2dVarIntensity = a2dVarIntensity + (a2dVarVTot - oHMC_Vars(iID)%a2dS)/dDtHorton*3600.0
a2dVarVTot = oHMC_Vars(iID)%a2dS
endwhere
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Calculating mass balance errors
where ( (a2dVarRain.lt.0.0) .and. (oHMC_Vars(iID)%a2iMask.gt.0.0) ) a2dVarRain = 0.0 ! Checking rain
! Calculating Volume error
where ( oHMC_Vars(iID)%a2iMask.gt.0.0 )
a2dVarVErr = a2dVarFlowDeep/dDtDataForcing*dDtHorton + &
a2dVarRain/dDtDataForcing*dDtHorton + oHMC_Vars(iID)%a2dCoeffResol*a2dVarRouting - &
a2dVarIntensity*dDtHorton/3600.0 - &
(a2dVarVTot - a2dVarVTotPStep + a2dVarVSub)
where (a2dVarVTot.lt.0.0)
a2dVarVTot = 0.0
endwhere
endwhere
! Cumulative mean error
!dVarVErr = dVarVErr + SUM(SUM(a2dVarVErr, DIM=1, mask=oHMC_Vars(iID)%a2dDEM.gt.0.0))/dDomainArea !DIM=1 columns
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Debug
if (iDEBUG.gt.0) then
call mprintf(.true., iINFO_Extra, '')
call mprintf(.true., iINFO_Extra, checkvar(a2dVarRouting, oHMC_Vars(iID)%a2iMask, 'ROUTING END') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarIntensity, oHMC_Vars(iID)%a2iMask, 'INTENSITY END') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarVTot, oHMC_Vars(iID)%a2iMask, 'VTOT END') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarVSub, oHMC_Vars(iID)%a2iMask, 'VSUB END') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarFlowDeep, oHMC_Vars(iID)%a2iMask, 'FLOWDEEP END') )
call mprintf(.true., iINFO_Extra, checkvar(oHMC_Vars(iID)%a2dHydro, oHMC_Vars(iID)%a2iMask, 'HYDRO UPD END') )
call mprintf(.true., iINFO_Extra, checkvar(oHMC_Vars(iID)%a2dHydroPrev, oHMC_Vars(iID)%a2iMask, 'HYDRO PREV END') )
call mprintf(.true., iINFO_Extra, checkvar(oHMC_Vars(iID)%a2dQDisOut, oHMC_Vars(iID)%a2iMask, 'QOUT END (Qtot)') )
call mprintf(.true., iINFO_Extra, ' ========= HORTON END =========== ')
endif
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Updating field(s) in global declaration
oHMC_Vars(iID)%a2dVTot = a2dVarVTot
oHMC_Vars(iID)%a2dVSub = a2dVarVSub
oHMC_Vars(iID)%a2dIntensity = a2dVarIntensity
oHMC_Vars(iID)%a2dFlowDeep = a2dVarFlowDeep
oHMC_Vars(iID)%a2dRain = a2dVarRain
oHMC_Vars(iID)%a2dVErr = a2dVarVErr
!oHMC_Vars(iID)%dVErr = dVarVErr
! Info end
if (iDEBUG.gt.0) then
call mprintf(.true., iINFO_Extra, ' Phys :: Convolution :: Horton ... OK' )
endif
!------------------------------------------------------------------------------------------
end subroutine HMC_Phys_Convolution_Apps_Horton_ChannelNetwork
!------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Subroutine for calculating infiltration/runoff (using horton modified method) channel fraction
subroutine HMC_Phys_Convolution_Apps_Horton_ChannelFraction(iID, iRows, iCols, dDtDataForcing, dDtAct, iTq, iTime, iNTime)
!------------------------------------------------------------------------------------------
! Variable(s) declaration
integer(kind = 4) :: iID, iRows, iCols
real(kind = 4) :: dDtDataForcing, dDtAct
real(kind = 4) :: dVarVErr,dTmp
real(kind = 4) :: dDtHorton
real(kind = 4) :: dDomainArea
real(kind = 4), dimension (iRows, iCols) :: a2dVarVTot, a2dVarVTotPStep
real(kind = 4), dimension (iRows, iCols) :: a2dVarVSub
real(kind = 4), dimension (iRows, iCols) :: a2dVarRain, a2dVarIntensity
!real(kind = 4), dimension (iRows, iCols) :: a2dVarB, a2dVarCh
real(kind = 4), dimension (iRows, iCols) :: a2dVarG, a2dVarVErr
real(kind = 4), dimension (iRows, iCols) :: a2dVarRouting, a2dVarFlowDeep
integer(kind = 4) :: iTq, iTime, iNTime
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Variable(s) initialization
a2dVarVTot = 0.0; a2dVarVTotPStep = 0.0; a2dVarVSub = 0.0
a2dVarRain = 0.0; a2dVarIntensity = 0.0;
a2dVarVErr = 0.0;
a2dVarRouting = 0.0; a2dVarFlowDeep = 0.0;
!a2dVarG = 0.0; a2dVarCh = 0.0; dVarVErr = 0.0;
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Integrating step (horton)
dDtHorton = dDtAct
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Domain Area
dDomainArea = oHMC_Vars(iID)%dDomainArea
! Variable(s) from global declaration
a2dVarVTot = oHMC_Vars(iID)%a2dVTot
a2dVarVSub = oHMC_Vars(iID)%a2dVSub
a2dVarRouting = oHMC_Vars(iID)%a2dRouting
a2dVarFlowDeep = oHMC_Vars(iID)%a2dFlowDeep
! Extracting dynamic forcing variable(s)
a2dVarRain = oHMC_Vars(iID)%a2dRain
where (a2dVarRain.lt.0.0.or.a2dVarRain.gt.845.0) a2dVarRain = 0.0
!dTmp=MAXVAL(MAXVAL(a2dVarRain,dim=1,mask=oHMC_Vars(iID)%a2iChoice.ge.0.and. &
! oHMC_Vars(iID)%a2dDem.gt.0))
! Info start
if (iDEBUG.gt.0) then
call mprintf(.true., iINFO_Extra, ' Phys :: Convolution :: Horton ... ' )
endif
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Total volume previous step
a2dVarVTotPStep = a2dVarVTot
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Horton filter equation
if (oHMC_Namelist(iID)%iFlagInfiltRateVariable .eq. 2) then
where (oHMC_Vars(iID)%a2dS.gt.0.0)
a2dVarG = oHMC_Vars(iID)%a2dCostF1 + (oHMC_Vars(iID)%a2dCostF - oHMC_Vars(iID)%a2dCostF1) * &
exp( -oHMC_Namelist(iID)%dPowVarInfiltRate * &
( a2dVarVTot / (oHMC_Vars(iID)%a2dS-a2dVarVTot) ) )
elsewhere
a2dVarG = 0.0
endwhere
else
where (oHMC_Vars(iID)%a2dS.gt.0.0)
a2dVarG = oHMC_Vars(iID)%a2dCostF - &
(oHMC_Vars(iID)%a2dCostF - oHMC_Vars(iID)%a2dCostF1)/oHMC_Vars(iID)%a2dS*a2dVarVTot
elsewhere
a2dVarG = 0.0
endwhere
endif
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Debug
if (iDEBUG.gt.0) then
call mprintf(.true., iINFO_Extra, ' ========= HORTON START =========== ')
call mprintf(.true., iINFO_Extra, checkvar(a2dVarRouting, oHMC_Vars(iID)%a2iMask, 'ROUTING START') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarIntensity, oHMC_Vars(iID)%a2iMask, 'INTENSITY START') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarVTot, oHMC_Vars(iID)%a2iMask, 'VTOT START') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarVSub, oHMC_Vars(iID)%a2iMask, 'VSUB START') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarFlowDeep, oHMC_Vars(iID)%a2iMask, 'FLOWDEEP START') )
call mprintf(.true., iINFO_Extra, checkvar(oHMC_Vars(iID)%a2dHydro, oHMC_Vars(iID)%a2iMask, 'HYDRO UPD START') )
call mprintf(.true., iINFO_Extra, checkvar(oHMC_Vars(iID)%a2dHydroPrev, oHMC_Vars(iID)%a2iMask, 'HYDRO PREV START') )
call mprintf(.true., iINFO_Extra, checkvar(oHMC_Vars(iID)%a2dQDisOut, oHMC_Vars(iID)%a2iMask, 'QOUT START (Qtot)') )
call mprintf(.true., iINFO_Extra, ' ')
call mprintf(.true., iINFO_Extra, checkvar(oHMC_Vars(iID)%a2dCostChFix, oHMC_Vars(iID)%a2iMask, 'CHFIX ') )
call mprintf(.true., iINFO_Extra, checkvar(oHMC_Vars(iID)%a2dCostF, oHMC_Vars(iID)%a2iMask, 'COSTF ') )
call mprintf(.true., iINFO_Extra, checkvar(oHMC_Vars(iID)%a2dCostF1, oHMC_Vars(iID)%a2iMask, 'COSTF1 ') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarG, oHMC_Vars(iID)%a2iMask, 'G ') )
!call mprintf(.true., iINFO_Extra, checkvar(a2dVarB, oHMC_Vars(iID)%a2iMask, 'B ') )
!call mprintf(.true., iINFO_Extra, checkvar(a2dVarCh, oHMC_Vars(iID)%a2iMask, 'CH ') )
call mprintf(.true., iINFO_Extra, checkvar(oHMC_Vars(iID)%a2dS, oHMC_Vars(iID)%a2iMask, 'S ') )
call mprintf(.true., iINFO_Extra, checkvar(oHMC_Vars(iID)%a2dCoeffResol, oHMC_Vars(iID)%a2iMask, 'COEFF RESOL') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarRain, oHMC_Vars(iID)%a2iMask, 'RAIN ') )
call mprintf(.true., iINFO_Extra, ' ')
endif
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Defining subterranean volume
where ( (a2dVarVTot.lt.oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS) .and. (oHMC_Vars(iID)%a2iMask.gt.0.0) )
a2dVarVSub = 0.0
elsewhere(oHMC_Vars(iID)%a2iMask.gt.0.0)
! *dDth/3600 perch� a2dCostF1 � in mm/h ma lavoro in mm/dDth
a2dVarVSub = oHMC_Vars(iID)%a2dF2*(a2dVarVTot - oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS)/ &
oHMC_Vars(iID)%a2dS*dDtHorton/3600
endwhere
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Evaluating intensity --> horton initialization = rain + routing from hillslope + portion of Deep flow
a2dVarIntensity = a2dVarRain*3600.0/dDtDataForcing + &
a2dVarRouting/dDtHorton*3600.0 + &
a2dVarFlowDeep*3600.0/dDtDataForcing*oHMC_Vars(iID)%a2dWidthH/sqrt(oHMC_Vars(iID)%a2dAreaCell)
!-------------------------------------------------------------------------------
! DA QUI GIULIA - ATTENZIONE costruito senza WiltingPoint (anche il vecchio)!!!
!------------------------------------------------------------------------------------------
! Intensity Evaluation
! Condition ----> Intensity == 0
where ( (a2dVarIntensity.eq.0.0) .and. (oHMC_Vars(iID)%a2iMask.gt.0.0) .and. &
(a2dVarVTot.ge.oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS) )
where (a2dVarVtot.ge.(oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS + a2dVarVSub))
a2dVarVTot = a2dVarVTot - a2dVarVSub
elsewhere
a2dVarVSub = a2dVarVTot - oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS
a2dVarVTot = oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS
endwhere
endwhere
! Condition ----> 0 < Intensity <= G
where ( (a2dVarIntensity.gt.0.0) .and. (a2dVarIntensity.le.a2dVarG) .and. (oHMC_Vars(iID)%a2iMask.gt.0.0) )
where ( (a2dVarVTot.lt.oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS) .and. (oHMC_Vars(iID)%a2iMask.gt.0.0) )
a2dVarVTot = a2dVarVTot + a2dVarRain/dDtDataForcing*dDtHorton + &
a2dVarRouting + &
a2dVarFlowDeep/dDtDataForcing*dDtHorton* &
oHMC_Vars(iID)%a2dWidthH/sqrt(oHMC_Vars(iID)%a2dAreaCell)
a2dVarIntensity = 0.0
elsewhere(oHMC_Vars(iID)%a2iMask.gt.0.0)
a2dVarVTot = a2dVarVTot + a2dVarIntensity*dDtHorton/3600.0
a2dVarIntensity = 0.0
where (a2dVarVtot.ge.(oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS + a2dVarVSub))
a2dVarVTot = a2dVarVTot - a2dVarVSub
elsewhere
a2dVarVSub = a2dVarVTot - oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS
a2dVarVTot = oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS
endwhere
endwhere
endwhere
! Condition ----> Intensity > G
where ( (a2dVarIntensity.gt.a2dVarG) .and. (oHMC_Vars(iID)%a2iMask.gt.0.0) )
where ( (a2dVarVTot.lt.oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS) .and. (oHMC_Vars(iID)%a2iMask.gt.0.0) )
a2dVarVTot = a2dVarVTot + a2dVarG*dDtHorton/3600.0
elsewhere (oHMC_Vars(iID)%a2iMask.gt.0.0)
a2dVarVTot = a2dVarVTot + a2dVarG*dDtHorton/3600.0
where (a2dVarVtot.ge.(oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS + a2dVarVSub))
a2dVarVTot = a2dVarVTot - a2dVarVSub
elsewhere
a2dVarVSub = a2dVarVTot - oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS
a2dVarVTot = oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS
endwhere
endwhere
a2dVarIntensity = a2dVarIntensity - a2dVarG
endwhere
!------------------------------------------------------------------------------------------
! FINE VERSIONE GIULIA
!!------------------------------------------------------------------------------------------
!! Intensity Evaluation
!! Condition ----> Intensity == 0
!where ( (a2dVarIntensity.eq.0.0) .and. (oHMC_Vars(iID)%a2iMask.gt.0.0) .and. &
! (a2dVarVTot.ge.oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS) )
!
! a2dVarVTot = a2dVarVTot - oHMC_Vars(iID)%a2dF2*(a2dVarVTot - oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS)/ &
! oHMC_Vars(iID)%a2dS*dDtHorton/3600.0
!
!endwhere
!
!! Condition ----> 0 < Intensity <= G
!where ( (a2dVarIntensity.gt.0.0) .and. (a2dVarIntensity.le.a2dVarG) .and. (oHMC_Vars(iID)%a2iMask.gt.0.0) )
!
! where ( (a2dVarVTot.lt.oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS) .and. (oHMC_Vars(iID)%a2iMask.gt.0.0) )
! a2dVarVTot = a2dVarVTot + a2dVarRain/dDtDataForcing*dDtHorton + &
! a2dVarRouting + &
! a2dVarFlowDeep/dDtDataForcing*dDtHorton*oHMC_Vars(iID)%a2dWidthH/sqrt(oHMC_Vars(iID)%a2dAreaCell)
! a2dVarIntensity = 0.0
! elsewhere(oHMC_Vars(iID)%a2iMask.gt.0.0)
! a2dVarVTot = a2dVarVTot + a2dVarIntensity*dDtHorton/3600.0 - a2dVarVSub
! a2dVarIntensity = 0.0
! endwhere
!
!endwhere
!
!! Condition ----> Intensity > G
!where ( (a2dVarIntensity.gt.a2dVarG) .and. (oHMC_Vars(iID)%a2iMask.gt.0.0) )
!
! where ( (a2dVarVTot.lt.oHMC_Vars(iID)%a2dCt*oHMC_Vars(iID)%a2dS) .and. (oHMC_Vars(iID)%a2iMask.gt.0.0) )
! a2dVarVTot = a2dVarVTot + a2dVarG*dDtHorton/3600.0
! elsewhere (oHMC_Vars(iID)%a2iMask.gt.0.0)
! a2dVarVTot = a2dVarVTot + a2dVarG*dDtHorton/3600.0 - a2dVarVSub
! endwhere
!
! a2dVarIntensity = a2dVarIntensity - a2dVarG
!
!endwhere
!!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Updating intensity variable
where ( (a2dVarVTot.gt.oHMC_Vars(iID)%a2dS) .and. (oHMC_Vars(iID)%a2iMask.gt.0.0) )
a2dVarIntensity = a2dVarIntensity + (a2dVarVTot - oHMC_Vars(iID)%a2dS)/dDtHorton*3600.0
a2dVarVTot = oHMC_Vars(iID)%a2dS
endwhere
! Runoff in m/s
where ( oHMC_Vars(iID)%a2iMask.gt.0.0 )
oHMC_Vars(iID)%a2dRunoffH=a2dVarIntensity/(1000.0*3600.0)
endwhere
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Calculating mass balance errors
where ( (a2dVarRain.lt.0.0) .and. (oHMC_Vars(iID)%a2iMask.gt.0.0) ) a2dVarRain = 0.0 ! Checking rain
! Calculating Volume error
where ( oHMC_Vars(iID)%a2iMask.gt.0.0 )
a2dVarVErr = a2dVarFlowDeep/dDtDataForcing*dDtHorton + &
a2dVarRain/dDtDataForcing*dDtHorton + oHMC_Vars(iID)%a2dCoeffResol*a2dVarRouting - &
a2dVarIntensity*dDtHorton/3600.0 - &
(a2dVarVTot - a2dVarVTotPStep + a2dVarVSub)
where (a2dVarVTot.lt.0.0)
a2dVarVTot = 0.0
endwhere
endwhere
! Cumulative mean error
!dVarVErr = dVarVErr + SUM(SUM(a2dVarVErr, DIM=1, mask=oHMC_Vars(iID)%a2dDEM.gt.0.0))/dDomainArea !DIM=1 columns
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Debug
if (iDEBUG.gt.0) then
call mprintf(.true., iINFO_Extra, '')
call mprintf(.true., iINFO_Extra, checkvar(a2dVarRouting, oHMC_Vars(iID)%a2iMask, 'ROUTING END') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarIntensity, oHMC_Vars(iID)%a2iMask, 'INTENSITY END') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarVTot, oHMC_Vars(iID)%a2iMask, 'VTOT END') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarVSub, oHMC_Vars(iID)%a2iMask, 'VSUB END') )
call mprintf(.true., iINFO_Extra, checkvar(a2dVarFlowDeep, oHMC_Vars(iID)%a2iMask, 'FLOWDEEP END') )
call mprintf(.true., iINFO_Extra, checkvar(oHMC_Vars(iID)%a2dHydro, oHMC_Vars(iID)%a2iMask, 'HYDRO UPD END') )
call mprintf(.true., iINFO_Extra, checkvar(oHMC_Vars(iID)%a2dHydroPrev, oHMC_Vars(iID)%a2iMask, 'HYDRO PREV END') )
call mprintf(.true., iINFO_Extra, checkvar(oHMC_Vars(iID)%a2dQDisOut, oHMC_Vars(iID)%a2iMask, 'QOUT END (Qtot)') )
call mprintf(.true., iINFO_Extra, ' ========= HORTON END =========== ')
endif
!------------------------------------------------------------------------------------------
!------------------------------------------------------------------------------------------
! Updating field(s) in global declaration
oHMC_Vars(iID)%a2dVTot = a2dVarVTot
oHMC_Vars(iID)%a2dVSub = a2dVarVSub
oHMC_Vars(iID)%a2dIntensity = a2dVarIntensity
oHMC_Vars(iID)%a2dFlowDeep = a2dVarFlowDeep
oHMC_Vars(iID)%a2dRain = a2dVarRain
oHMC_Vars(iID)%a2dVErr = a2dVarVErr
!oHMC_Vars(iID)%dVErr = dVarVErr
! Info end
if (iDEBUG.gt.0) then
call mprintf(.true., iINFO_Extra, ' Phys :: Convolution :: Horton ... OK' )
endif
!------------------------------------------------------------------------------------------
end subroutine HMC_Phys_Convolution_Apps_Horton_ChannelFraction
!------------------------------------------------------------------------------------
end module HMC_Module_Phys_Convolution_Apps_Horton
!------------------------------------------------------------------------------------------