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Numerical Models

Christina River Basin CZO is working on a variety of numerical models, with collaboration from scientists at Stroud Water Research Center, University of Delaware, Vanderbilt University, and Penn State.

Figure from FEMDOC_2D, the two-dimensional finite element model for hillslope DOC.

FEMDOC_2D

Two-dimensional finite element model for hillslope DOC
Physically based model of water, heat, refractory DOC and biodegradable DOC transport on a 2D (vertical cross section) hillslope


Fluid exchange model

Dynamic response of surface water-groundwater exchange to currents, tides, and waves in an estuary
Changes in fluid flux across the sediment-water interface in a shallow estuary due to changes in currents, waves, and tides


IDOCM_1D

Integrated one dimensional physically-based dissolved organic carbon model
A one-dimensional transport model for heat, and biodegradeable and refractory dissolved organic carbon in soils


PIHM

Penn State Integrated Hydrologic Model
Multiprocess, multi-scale hydrologic model.


PIHM_DOC

Penn State Integrated Hydrological Model for Dissolved Organic Carbon
PIHM is a physically based, fully distributed hydrological model