HYDRUS

HYDRUS is a software package for simulating water, heat, and solute movement in two- and three-dimensional variably saturated media. The software package consists of a computational computer program and an interactive graphics-based user interface. A brief description of HYDRUS is given in the Introduction and Program Description. More detailed information is given in the User and Technical Manuals.


References in zbMATH (referenced in 31 articles )

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  1. Kyas, Svetlana; Volpatto, Diego; Saar, Martin O.; Leal, Allan M. M.: Accelerated reactive transport simulations in heterogeneous porous media using Reaktoro and Firedrake (2022)
  2. Chen, Xi; He, Dandan; Yang, Guangying; Yuan, Yong; Dai, Ying: Approximate analytical solution for Richards’ equation with finite constant water head Dirichlet boundary conditions (2021)
  3. Etminan, Samaneh; Jalali, Vahidreza; Mahmoodabadi, Majid; Khashei siuki, Abbas; Bilondi, Mohsen Pourreza: Assessing an efficient hybrid of Monte Carlo technique (GSA-GLUE) in uncertainty and sensitivity analysis of vanGenuchten soil moisture characteristics curve (2021)
  4. Kacimov, A. R.; Obnosov, Yu. V.: Infiltration-induced phreatic surface flow to periodic drains: Vedernikov-Engelund-Vasil’ev’s legacy revisited (2021)
  5. Man, Jun; Lin, Guang; Yao, Yijun; Zeng, Lingzao: A generalized multi-fidelity simulation method using sparse polynomial chaos expansion (2021)
  6. Su, Danyang; Mayer, K. Ulrich; MacQuarrie, Kerry T. B.: MIN3P-HPC: a high-performance unstructured grid code for subsurface flow and reactive transport simulation (2021)
  7. del Vigo, Ángel; Zubelzu, Sergio; Juana, Luis: Numerical routine for soil water dynamics from trickle irrigation (2020)
  8. Kacimov, A. R.; Yakimov, N. D.; Šimůnek, J.: Phreatic seepage flow through an earth dam with an impeding strip (2020)
  9. Anshuman, Aatish; Eldho, T. I.: Modeling of transport of first-order reaction networks in porous media using meshfree radial point collocation method (2019)
  10. Dolejší, Vít; Kuraz, Michal; Solin, Pavel: Adaptive higher-order space-time discontinuous Galerkin method for the computer simulation of variably-saturated porous media flows (2019)
  11. Tisler, Witold; Gorczewska-Langner, Wioletta; Leśniewska, Danuta; Maciejewski, Stanisław; Ossowski, Rafał; Szymkiewicz, Adam: Simulations of air and water flow in a model dike during overflow experiments (2019)
  12. Waghmare, Akhil; Seshaiyer, Padmanabhan: ICCM2016: implementation of the parareal algorithm to optimize nanoparticle transport in porous media simulations (2019)
  13. Anuprienko, D. V.; Kapyrin, I. V.: Modeling groundwater flow in unconfined conditions: numerical model and solvers’ efficiency (2018)
  14. Bonelle, Jérôme; Fournier, Yvan; Moulinec, Charles: New polyhedral discretisation methods applied to the Richards equation: CDO schemes in \textitCode_Saturne (2018)
  15. Škerget, L.; Tadeu, A.; Brebbia, C. A.: Transient numerical simulation of coupled heat and moisture flow through a green roof (2018)
  16. Wang, Jiao; Su, Lijun; Qin, Xinqiang: Hermite radial basis collocation method for unsaturated soil water movement equation (2018)
  17. Samimi, Soodeh; Pak, Ali: A three-dimensional mesh-free model for analyzing multi-phase flow in deforming porous media (2016)
  18. Cariaga, Emilio; Martínez, Rubén; Sepúlveda, Mauricio: Estimation of hydraulic parameters under unsaturated flow conditions in heap leaching (2015)
  19. De Maet, T.; Cornaton, F.; Hanert, E.: A scalable coupled surface-subsurface flow model (2015)
  20. Ojha, Richa; Govindaraju, Rao S.: A physical scaling model for aggregation and disaggregation of field-scale surface soil moisture dynamics (2015)

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