DIAGCONS.TXT    DIAGnostic CONServation of mass and energy    C089-C094

First side of equations come from "Conservation Quantities".
Second side of equations come from "Budgets".

OIfrac   =  Oceans: [Ocean Ice Cover] / 100
OOfrac   =  1 - Oceans: [Ocean Ice Cover] / 100
.000864  =  10^-8 * seconds/day


Conservation of Water mass fluxes
---------------------------------
0  =  Global: Run Prec to Lak
0  =  Global: Run Surf to Lak
0  =  Global: Run Deep to Lak
0  =  Global: River Flow Mass
0  =  Lakes: or Oceans: Draw Ice Up
0  =  Lakes: or Oceans: Push Ice Down


Conservation of Water Vapor in Atmosphere
-----------------------------------------
Atmosphere: Change of Vapor by Dynamics (10^-8 kg/s*m^2)  =  0

Atmosphere: Change of Vapor by Condensation (10^-8 kg/s*m^2)  =
Global: - [Precip] / .000864

Atmosphere: Change of Vapor by Surf Evapora (10^-8 kg/s*m^2)  =
Global: - [Evapor] / .000864


Conservation of Water in Ground
-------------------------------
Ground: Change of Water by Surf Evapora (10^-8 kg/s*m^2)  =
Ground: [Precip + Evapor + Run Surf to Lak + Run Deep to Lak] / .000864


Conservation of Ice in Glacial Ice
----------------------------------
Glacial Ic: Change of Water by Precipitatn (10^-8 kg/s*m^2)  =
Glacial Ice: [Precip + Run Prec to Lak + Push Ice Down] / .000864

Glacial Ic: Change of Water by Surf Evapora (10^-8 kg/s*m^2)  =
Glacial Ice: [Evapor + Run Surf to Lak + Run Deep to Lak + Draw Ice Up]
             / .000864


Conservation of Water in Lakes
------------------------------
Lakes: Change of Water by Precipitatn (10^-8 kg/s*m^2)  =
Lakes: [Precip + Run Prec to Lak] / .000864

Lakes: Change of Water by Surf Evapora (10^-8 kg/s*m^2)  =
Lakes: [Evapor + Run Surf to Lak + Run Deep to Lak] / .000864

Lakes: Change of Water by River Flow (10^-8 kg/s*m^2)  =
Lakes: [River Flow Mass] / .000864



Conservation of Liquid Ocean Mass
---------------------------------
Ocean: Change of Mass by Dynam + Strai (10^-8 kg/s*m^2)  =  0

Ocean: Change of Mass by Precipitation (10^-8 kg/s*m^2)  =
Open Ocean: [Precip + Run Prec to Lak] * OOfrac / .000864

Ocean: Change of Mass by SeaIce Runoff (10^-8 kg/s*m^2)  =
Open Ocean: [Run Surf to Lak + Run Deep to Lak] * OOfrac / .000864

Ocean: Change of Mass by OSOURC (10^-8 kg/s*m^2)  =
Open Ocean: [Evapor + Draw Ice Up] * OOfrac / .000864

Ocean: Change of Mass by River Flow (10^-8 kg/s*m^2)  =
Open Ocean: [River Flow Mass] * OOfrac / .000864  =
Oceans: [River Flow Mass] / .000864

Ocean: Change of Mass by Sea Ice Melt (10^-8 kg/s*m^2) +
+ Ice Bergs: Change of Mass by Melting (10^-8 kg/s*m^2)  =
Open Ocean: [Push Ice Down] * OOfrac / .000864


Conservation of Sea Ice Mass
----------------------------
Sea Ice: Change of Mass by Advec + Strai (10^-8 kg/s*m^2)  =  0

Sea Ice: Change of Mass by Precipitation (10^-8 kg/s*m^2)  =
Sea Ice: [Precip + Run Prec to Lak] * OIfrac / .000864

Sea Ice: Change of Mass by Surf Evapora (10^-8 kg/s*m^2)  =
Sea Ice: [Evapor + Run Surf to Lak + Run Deep to Lak] * OIfrac / .000864

Sea Ice: Change of Mass by OSOURC Freez (10^-8 kg/s*m^2)  =
Sea Ice: [Draw Ice Up] * OIfrac / .000864

Sea Ice: Change of Mass by Calving (10^-8 kg/s*m^2) +
+ Ice Bergs: Change of Mass by Calving (10^-8 kg/s*m^2)  =  0

Sea Ice: Change of Mass by Sea Ice Melt (10^-8 kg/s*m^2)  =
Sea Ice: [Push Ice Down] * OIfrac / .000864









36  Push Ice Down  =  Push ice below bottom layer or melt at bottom
37  Draw Ice Up    =  Draw ice up into bottom layer or freeze at bottom

33  Run Prec to Lak  =  Excess precip from run off  PRECGI,PRECSI
34  Run Surf to Lak  =  Surface runoff              GHYDRO,SEAICE
38  Run Deep to Lak  =  Runoff from deep layers     GHYDRO,GLAICE,SEAICE





Conservation of Energy fluxes
-----------------------------
0  =  Global: ERun Prec to Lk
0  =  Global: ERun Surf to Lk
0  =  Global: ERun Deep to Lk
0  =  Global: River Flow Enrg
0  =  Lakes: or Oceans: Draw Ice Erg Up
0  =  Lakes: or Oceans: Conduc Ice/Ocen
0  =  Lakes: or Oceans: Push Ice Erg Dn


Conservation of Static Energy in Atmosphere
-------------------------------------------
Atmosphere Change of SE by Condensation (W/m^2) / 100  =
Global: - Sum Pr Enrg Flx   (Not conserved for C089 - C094)

Atmosphere: Change of SE by Radiation (W/m^2) / 100  =
Global: Net Rad Abs Atm

Atmosphere: Change of SE by Surface Inter (W/m^2) / 100  =
Global: - Sum Surf Fluxes   (- Sensbl Heat Flux  for C089 - C094)


Conservation of Energy in Ground
--------------------------------
Ground: Change of Water by Surf Fluxes (W/m^2) / 100  =
Ground: Net Rad at Z0 + Sum Surf Fluxes + ERun Surf to Lk
        + ERun Deep to Lk + Sum Pr Enrg Flx + ERun Prec to Lk


Conservation of Energy in Glacial Ice
-------------------------------------
Glacial Ic: Change of Energy by Precipitatn (W/m^2) / 100  =
Glacial Ice: Sum Pr Enrg Flx + Push Ice Erg Dn

Glacial Ic: Change of Energy by Surf Fluxes (W/m^2) / 100  =
Glacial Ice: Net Rad at Z0 + Sum Surf Fluxes + Draw Ice Erg Up


Conservation of Energy in Lakes
-------------------------------
Lakes: Change of Energy by Precipitatn (W/m^2) / 100  =
Lakes: Sum Pr Enrg Flx + ERun Prec to Lk

Lakes: Change of Energy by Surf Fluxes (W/m^2) / 100  =
Lakes: Net Rad at Z0 + Sum Surf Fluxes + ERun Surf to Lk
       + ERun Deep to Lk

Lakes: Change of Energy by River Flow (W/m^2) / 100  =
Lakes: River Flow Enrg










Conservation of Potential Enthalpy by Liquid Ocean
--------------------------------------------------
Ocean: Change of PE by Precipitation (W/m^2) / 100  =
Open Ocean: [Sum Pr Enrg Flx] * OOfrac

Ocean: Change of PE by SeaIce Runoff (W/m^2) / 100  =  0

Ocean: Change of PE by OSOURC (W/m^2) / 100  =
Open Ocean: [Net Rad at ZO + Sum Surf Fluxes +
             + Draw Ice Erg Up + Conduc Ice/Ocen] * OOfrac

Ocean: Change of PE by River Flow (W/m^2) / 100  =
Open Ocean: [River Flow Enrg] * OOfrac  =  Oceans: [River Flow Enrg]

Ocean: Change of PE by Sea Ice Melt (W/m^2) / 100 +
+ Ice Bergs: Change of Enrg by Melting (W/m^2) / 100  =
Open Ocean: [Push Ice Erg Dn] * OOfrac


Conservation of Sea Ice Energy
------------------------------
Sea Ice: Change of Enrg by Precipitation (W/m^2) / 100  =
Sea Ice: [Sum Pr Enrg Flx] * OIfrac

Sea Ice: Change of Enrg by Seaice Fluxes (W/m^2) / 100  =
Sea Ice: [Net Rad at Z0 + Sum Surf Fluxes + Conduc Ice/Ocen] * OIfrac

Sea Ice: Change of Enrg by OSOURC Freez (W/m^2) / 100  =
Sea Ice: [Draw Ice Erg Up] * OIfrac

Sea Ice: Change of Enrg by Calving (W/m^2) / 100 +
+ Ice Bergs: Change of Enrg by Calving (W/m^2) / 100  =  0

Sea Ice: Change of Enrg by Sea Ice Melt (W/m^2) / 100  =
Sea Ice: [Push Ice Erg Dn] * OIfrac





45  Push Ice Erg Dn  =  Push ice energy below bottom or melt at bottom
46  Draw Ice Erg Up  =  Draw ice energy up from or freeze at bottom

41  ERun Prec to Lk  =  Energy of runoff from excess precipitation
42  ERun Surf to Lk  =  Surface energy runoff into lakes
42  ERun Deep to Lk  =  Energy runoff from deep layers into lakes