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Home / Programs / Hydrus-1D / Library of Projects / Inverse

Hydrus-1D Projects - Inverse

  • Project Group: Inverse
  • Description: Basic Inverse Problem Examples
  • Availability: These projects are included in Hydrus-1D installation
Project Description
Drainage Drainage in a sand column – data from George Vachaud's thesis
Evapor Evaporation experiment – data from Ole Wendroth (Šimůnek et al., 1998), (example from the Hydrus-1D manual)
FitHyst Fitting of parameters of the hysteretic model of soil hydraulic properties from transient flow experiment
FitTest2 Fitting of soil hydraulic parameters for the seasonal water flow in a field soil profile under grass (direct example from the Hydrus-1D manual)
FitTest3 Fitting of transport parameters for solute transport problem involving nitrogen chain (direct example from the Hydrus-1D manual)
FitTest4 Fitting of transport parameters for solute transport problem involving nonlinear cation adsorption (direct example from the Hydrus-1D manual)
FitTest5 Fitting of transport parameters for solute transport problem involving non-equilibrium cation adsorption (direct example from the Hydrus-1D manual)
HorInfDr Horizontal drainage and redistribution in a sand column – data from George Vachaud’s thesis
HorinInf Horizontal infiltration experiment in a sand column – data from George Vachaud’s thesis
MultiStep Multistep outflow experiment – Data from Jan Hopmans (example from the Hydrus-1D manual)
OneStep Onestep outflow experiment (example from the Hydrus-1D manual) (Kool et al., 1985)
UpInfil Upward infiltration experiment


References:

  • Kool, J. B., J. C. Parker, and M. Th. van Genuchten, Determining soil hydraulic properties from one-step outflow experiments by parameter estimation: I. Theory and numerical studies, Soil Sci. Soc. Am. J., 49, 1348-1354, 1985.
  • Šimůnek, J., O. Wendroth, and M. Th. van Genuchten, A parameter estimation analysis of the evaporation method for determining soil hydraulic properties, Soil Sci. Soc. Am. J., 62(4), 894-905, 1998.
  • Šimůnek, J., M. Šejna, H. Saito, M. Sakai, and M. Th. van Genuchten, The Hydrus-1D Software Package for Simulating the Movement of Water, Heat, and Multiple Solutes in Variably Saturated Media, Version 4.0, HYDRUS Software Series 3, Department of Environmental Sciences, University of California Riverside, Riverside, California, USA, pp. 316, 2008.
 

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