Module PorousMediaProperties
From MohidWiki
Contents
Overview
This is the module in Mohid Land that handles porous media properties, meaning that controls transport (dependent on fluxes computed in porous media) and transformation processes (sediment quality and PREEQC modules that concern to biological and chemical processes in soil respectively). Standard units for Module PorousMediaProperties are mg/L in dissolved properties and mg/kgsoil for adsorbed properties.
Main Processes
Property Transport
Time discretization of property transport in Module PorousMediaProperties can be explicit or implicit. If user chooses to use implicit formulation, fluxes between porous media cells are implicit computed and also Runoff or Drainage Network interactions where sinks in soil occur. Runoff and Drainage network interactions acting as source to soil and sources or sinks from vegetation (uptake or organic matter generation) are always computed explicitly. Vegetation uptakes can not be simulated implicitly because this uptake may be disconnected from evapotranspiration flux (SWAT formulation).
Spatial discretization (horizontally and vertically) of property transport in Module PorousMediaProperties can be chosen from several options as in ModuleWaterProperties for each property (e.g. Upwind order 1 to 3, CentralDifferences, LeapFrog..)
In order to boost the computation, PorousMediaProperties has the option of choosing the same discretization for all the properties (see keywords).
The property transport equation:
where: V is cell volume (m3) C is cell property concentration (g/m3) theta is cell water content (m3H2O/m3cell) Deltat is time step (s) Q is flow in cell face (m3/s) Gamma is diffusivity in cell face (m2/s) Deltaxi is cell spatial step in direction i (m) * is t in case of explicit model and t+deltat in case of implicit
Diffusivity in soil is defined by tortuosity and dispersion (associated to erratic motion in pores)
where:
Gammaface is diffusivity in cell face (m2/s) Diffface is molecular diffusivity in cell face (m2/s) zeta is Tortuosity (-) tethaface is water content at cell face (m3H20/m3cell) vface is velocity at the cell face (m/s) lambdaface is dispersivity (m)
Water content at face can be obtained by several methods chosen by user: average of adjacent cells, minimum, maximum.
Tortuosity is defined as:
where:
thetaface is water content at cell face (m3H20/m3cell) phiface is porosity at cell face (m3pores/m3cell
Property Transformation
Biological activity - Sediment Quality Module
Sediment Quality module simulates biological processes by bacteria. Heterotrophic bacteria perform mineralization of organic matter (organic matter to inorganic material), Autotrophic bacteria perform nitrification (ammonia to nitrate) and Anaerobic bacteria denitrification (nitrate to nitrogen gas). Also immobilization of inorganic species is done if bacteria have nutrient needs to mantain ratios.
Chemical reactions - PREEQC Module
PREEQC module handles chemical equilibrium between species in soil, giving the new equilibrium at each computation.
Partition
Partition between particulated and dissolved species is done using a user ratio.
Other Features
Outputs
Output is done in terms of timeseries, HDF, and boxes following the MOHID standards.
References
Data File
Keywords
Units in porous media properties Transported properties (soluble) : g/m3 (or mg/L) (needs to convert concentrations to SedimentQuality and PREEQC at entrance and exit) Adsorbed properties (non soluble) : mg/kgsoil (needs to convert concentrations to PREEQC ) Solid Phases (non soluble) : mg/kgsoil (used in PhreeqC to make equilibrium with soil solution) Gas Phases (non soluble) : mol (mass); atm (partial pressure) (used in PhreeqC to make equilibrium with soil solution) Gas Phases (assumed soluble) : mg/L (used in SedimentQuality - N2, CH4 and CO2) Soil Dry Density : kg/m3 H+ and Ionic Strenght : mol/L (used in SedimentQuality) Microorganisms Population : #org/kgsoil (used in SedimentQuality) Keywords: ADVDIFF_EXPLICIT : 0/1 [1] !REMARK: Horizontal diffusion is always explicit !(1 - adv and diff are explicit in all directions; 0 - adv and diff !are implicit in vertical, horizontal adv may be explicit or impl) ADVDIFF_ADVECTION_H_IMP_EXP : 0/1 [1] !(read if ADVDIFF_EXPLICIT : 0; 0 - horiz adv implicit; 1 - horiz adv explicit) NEW_FORMULATION : 0/1 [0] !if 1 then spatial methods will be the same for all properties ADVDIFF_METHOD_H : integer [UpwindOrder1] !Spatial methods for horizontal advection !UpwindOrder1 = 1, UpwindOrder2 = 2, UpwindOrder3 = 3, P2_TVD = 4, CentralDif = 5, LeapFrog = 6 ADVDIFF_METHOD_V : integer [UpwindOrder1] !Spatial methods for vertical advection !UpwindOrder1 = 1, UpwindOrder2 = 2, UpwindOrder3 = 3, P2_TVD = 4, CentralDif = 5, LeapFrog = 6! <beginproperty> ADVECTION_DIFFUSION : 0/1 [0] !Property advection - diffusion ADVDIFF_METHOD_H : integer [UpwindOrder1] !Spatial methods for horizontal advection !UpwindOrder1 = 1, UpwindOrder2 = 2, UpwindOrder3 = 3, P2_TVD = 4, CentralDif = 5, LeapFrog = 6 ADVDIFF_METHOD_V : integer [UpwindOrder1] !Spatial methods for vertical advection !UpwindOrder1 = 1, UpwindOrder2 = 2, UpwindOrder3 = 3, P2_TVD = 4, CentralDif = 5, LeapFrog = 6 ADVDIFF_TVD_LIMIT_H : integer [Superbee] !Horizontal advection non-linear stability conditions MinMod = 1, VanLeer = 2, Muscl = 3, Superbee = 4, PDM = 5 ADVDIFF_TVD_LIMIT_V : integer [Superbee] !Vertical advection non-linear stability conditions !MinMod = 1, VanLeer = 2, Muscl = 3, Superbee = 4, PDM = 5 ADVDIFF_VOLUME_RELATION_MAX : real 5. !The relation between adjacent volumes above which !the advection is upwind SOIL_CHEMISTRY : 0/1 [0] !Use PREEQC model to change property (source/sink model) SOIL_QUALITY : 0/1 [0] !Use SedimentQuality model to change property (source/sink model) PARTITION : 0/1 [0] !Compute partition between dissolved-particulate phases PARTITION_COUPLE : char + !Name of the property (oposite phase) to compute partition PARTITION_FRACTION : real - !Percentage of mass of a property in a determined phase PARTITION_RATE : real [1 s-1] !Kinetic rate of partition to reach equilibrium <endproperty>
Sample
OUTPUT_TIME : 0 3600 TIME_SERIE_LOCATION : ..\General Data\TimeSeries\TimeSeriesLocation3D_2m.dat !Advectin diffusion options ADVDIFF_EXPLICIT : 1 !Horizontal diffusion is always explicit !(1 - adv and diff are explicit in all directions; 0 - adv and diff !are implicit in vertical. horizontal adv may be explicit or impl) ADVDIFF_ADVECTION_H_IMP_EXP : 1 !(read if ADVDIFF_EXPLICIT : 0; 0 - horiz adv implicit; ! 1 - horiz adv explicit) NEW_FORMULATION : 1 !1 - do not use moduleadvectiondiffusion (removed advection computation); 0 - old formulation ADVDIFF_METHOD_H : 1 !UpwindOrder1 = 1. UpwindOrder2 = 2. UpwindOrder3 = 3. P2_TVD = 4. !CentralDif = 5. LeapFrog = 6 ADVDIFF_METHOD_V : 1 !UpwindOrder1 = 1. UpwindOrder2 = 2. UpwindOrder3 = 3. P2_TVD = 4. !CentralDif = 5. LeapFrog = 6 !dispersion <begin_dispersion_long> NAME : dispersion long INITIALIZATION_METHOD : CONSTANT DEFAULTVALUE : 0.0 REMAIN_CONSTANT : 1 <end_dispersion_long> <begin_dispersion_trans> NAME : dispersion trans INITIALIZATION_METHOD : CONSTANT DEFAULTVALUE : 0.0 REMAIN_CONSTANT : 1 <end_dispersion_trans> !example of rates for use with sediment quality BOXFLUXES : ..\General Data\Boxes\Boxes.dat <beginSQrate> NAME : ammonia ammonia DESCRIPTION : nitrification (-); ammonia imombilization (+) FIRSTPROP : ammonia SECONDPROP : ammonia MODEL : SedimentQuality <endSQrate> properties needed to run with sediment quality: properties simulated: ammonia, nitrate, particulated refractory organic nitrogen, particulate organic nitrogen, nitrogen gas, heterotrophic microorganism nitrogen, autotrophic microorganism nitrogen, anaerobic microorganism nitrogen, urea, particulate labile organic carbon, particulated refractory organic carbon, heterotrophic microorganism carbon, anaerobic microorganism carbon, carbon dioxide, inorganic phosphorus, particulated inorganic phosphorus, particulated refractory organic phosphorus, particulate organic phosphorus, heterotrophic microorganism phosphorus, autotrophic microorganism phosphorus, anaerobic microorganism phosphorus, heterotrophic microorganism population, autotrophic microorganism population, anaerobic microorganism population properties defined by user (sediment quality does not change them): temperature, salinity, pH, ionic strength, phosphorus adsortion index, soil dry density properties that can be defined by user or computed: oxygen. oxygen is computed based on temperature and salinity. ATTENTION : When using soil quality modules DTINTERVAL here in each property should be the same as 0D model DT.
<beginproperty> NAME : ammonia UNITS : mgN/L DESCRIPTION : ammonia PARTICULATE : 0 OLD : 0 MIN_VALUE : 1E-15 FILE_IN_TIME : NONE INITIALIZATION_METHOD : CONSTANT DEFAULTVALUE : 10. ADVECTION_DIFFUSION : 1 ADVDIFF_MOLECULAR_DIFF_COEF : 0.0 DTINTERVAL : 86400. SOIL_QUALITY : 1 SOIL_CHEMISTRY : 0 TIME_SERIE : 1 OUTPUT_HDF : 1 BOX_TIME_SERIE : 1 <endproperty> <beginproperty> NAME : nitrate UNITS : mgN/l DESCRIPTION : nitrate ADVECTION_DIFFUSION : 1 DEFAULTVALUE : 10.0 ADVDIFF_MOLECULAR_DIFF_COEF : 0.0 ADVDIFF_METHOD_H : 1 !UpwindOrder1 = 1, UpwindOrder2 = 2, UpwindOrder3 = 3, P2_TVD = 4, !CentralDif = 5, LeapFrog = 6 ADVDIFF_METHOD_V : 1 !UpwindOrder1 = 1, UpwindOrder2 = 2, UpwindOrder3 = 3, P2_TVD = 4, !CentralDif = 5, LeapFrog = 6 OUTPUT_HDF : 1 TIME_SERIE : 1 <endproperty> <beginproperty> NAME : inorganic phosphorus UNITS : mgP/l DESCRIPTION : inorganic phosphorus ADVECTION_DIFFUSION : 1 DEFAULTVALUE : 1.0 ADVDIFF_MOLECULAR_DIFF_COEF : 0.0 ADVDIFF_METHOD_H : 1 !UpwindOrder1 = 1, UpwindOrder2 = 2, UpwindOrder3 = 3, P2_TVD = 4, !CentralDif = 5, LeapFrog = 6 ADVDIFF_METHOD_V : 1 !UpwindOrder1 = 1, UpwindOrder2 = 2, UpwindOrder3 = 3, P2_TVD = 4, !CentralDif = 5, LeapFrog = 6 OUTPUT_HDF : 1 TIME_SERIE : 1 <endproperty> <beginproperty> NAME : soil dry density UNITS : kg/m3cell DESCRIPTION : soil dry density PARTICULATE : 0 OLD : 0 MIN_VALUE : 0 FILE_IN_TIME : NONE INITIALIZATION_METHOD : CONSTANT DEFAULTVALUE : 1490. ADVECTION_DIFFUSION : 0 SOIL_QUALITY : 0 SOIL_CHEMISTRY : 0 TIME_SERIE : 1 OUTPUT_HDF : 1 <endproperty>