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International Journal of Computer Mathematics Volume 97, 2020 - Issue 1-2: Selected papers of CMMSE: Computational and Mathematical methods in Science Engineering and Economics
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A numerical solution of Richards equation: a simple method adaptable in parallel computing

N. EgidiSchool of Sciences and Tecnology, University of Camerino, Camerino, Italy
,
E. GioiaDepartment of Life Sciences and the Environment, Marche Polytechnic UniversityAncona AN, Italy
,
P. MaponiSchool of Sciences and Tecnology, University of Camerino, Camerino, Italy
&
L. SpadoniSchool of Sciences and Tecnology, University of Camerino, Camerino, ItalyCorrespondence[email protected]
Pages 2-17 | Received 30 Sep 2017, Accepted 25 Jan 2018, Published online: 08 Mar 2018

References

  • L.M. Abriola and J.R. Lang, Self-adaptive hierarchic finite element solution of the one-dimensional unsaturated flow equation, Int. J. Numer. Methods Fluids. 10 (1990), pp. 227–246. doi: 10.1002/fld.1650100302
  • M.B. Allen and C.L. Murphy, A finite-element collocation method for variably saturated flow in two space dimensions, Water Resour. Res. 22 (1986), pp. 1537–1542. doi: 10.1029/WR022i011p01537
  • R.G. Allen, L.S. Pereira, D. Raes, and M. Smith, Crop Evapotranspiration-guidelines for Computing Crop Water Requirements-FAO Irrigation and Drainage Paper 56, Vol. 300, FAO, Rome, 1998, p. D05109.
  • R.L. Baum and J.W. Godt, Early warning of rainfall-induced shallow landslides and debris flows in the USA, Landslides 7 (2010), pp. 259–272. doi: 10.1007/s10346-009-0177-0
  • R.L. Baum, W.Z. Savage, and J.W. Godt, Trigrs-a fortran program for transient rainfall infiltration and grid-based regional slope-stability analysis, version 2.0, Tech. Rep., US Geological Survey, 2008.
  • H. Berninger, R. Kornhuber, and O. Sander, Fast and robust numerical solution of the richards equation in homogeneous soil, SIAM. J. Numer. Anal. 49 (2011), pp. 2576–2597. doi: 10.1137/100782887
  • H. Berninger, M. Ohlberger, O. Sander, and K. Smetana, Unsaturated subsurface flow with surface water and nonlinear in- and outflow conditions, Math. Models Methods Appl. Sci. 24 (2014), pp. 901–936. doi: 10.1142/S0218202513500711
  • G. Capparelli and P. Versace, Flair and sushi: Two mathematical models for early warning of landslides induced by rainfall, Landslides 8 (2011), pp. 67–79. doi: 10.1007/s10346-010-0228-6
  • B. Chapman, G. Jost, and R. Van Der Pas, Using OpenMP: Portable Shared Memory Parallel Programming, Vol. 10, MIT Press, Cambridge, MA, 2008.
  • H.J. Diersch, FEFLOW: Finite Element Modeling of Flow, Mass and Heat Transport in Porous and Fractured Media, Springer Science & Business Media, Berlin, 2013.
  • I.S. Duff, Ma57 – a code for the solution of sparse symmetric definite and indefinite systems, ACM Trans. Math. Softw. 30 (2004), pp. 118–144. doi: 10.1145/992200.992202
  • J.M. Duncan, S.G. Wright, and T.L. Brandon, Soil Strength and Slope Stability, John Wiley & Sons, Hoboken, NJ, 2014.
  • I. Faragó, Convergence and stability constant of the theta-method, Appl. Math. 2013 (2013), pp. 42–51.
  • P.A. Forsyth, Y. Wu, and K. Pruess, Robust numerical methods for saturated–unsaturated flow with dry initial conditions in heterogeneous media, Adv. Water. Resour. 18 (1995), pp. 25–38. doi: 10.1016/0309-1708(95)00020-J
  • R.A. Freeze, Three-dimensional, transient, saturated–unsaturated flow in a groundwater basin, Water Resour. Res. 7 (1971), pp. 347–366. doi: 10.1029/WR007i002p00347
  • E. Gioia, G. Speranza, M. Ferretti, J.W. Godt, R.L. Baum, and F. Marincioni, Application of a process-based shallow landslide hazard model over a broad area in central Italy, Landslides 13 (2016), pp. 1197–1214. doi: 10.1007/s10346-015-0670-6
  • R.J. Hanks and S.A. Bowers, Numerical solution of the moisture flow equation for infiltration into layered soils, Soil Sci. Soc. Amer. J. 26 (1962), pp. 530–534. doi: 10.2136/sssaj1962.03615995002600060007x
  • A.W. Harbaugh, MODFLOW-2005, the US Geological Survey modular ground-water model: The ground-water flow process, US Department of the Interior, US Geological Survey Reston, VA, USA, 2005.
  • R. Haverkamp, M. Vauclin, J. Touma, P. Wierenga, and G. Vachaud, A comparison of numerical simulation models for one-dimensional infiltration, Soil Sci. Soc. Amer. J. 41 (1977), pp. 285–294. doi: 10.2136/sssaj1977.03615995004100020024x
  • D. Hillel, Environmental Soil Physics: Fundamentals, Applications, and Environmental Considerations, Academic Press, San Diego, CA, 1998.
  • R.G. Hills, I. Porro, D.B. Hudson, and P.J. Wierenga, Modeling one-dimensional infiltration into very dry soils: 1. Model development and evaluation, Water Resour. Res. 25 (1989), pp. 1259–1269. doi: 10.1029/WR025i006p01259
  • HSL: Ma57 sparse symmetric system: Multifrontal method, 2001. Available at http://www.hsl.rl.ac.uk/catalogue/ma57.html.
  • M.R. Kirkland, R.G. Hills, and P.J. Wierenga, Algorithms for solving Richards' equation for variably saturated soils, Water Resour. Res. 28 (1992), pp. 2049–2058. doi: 10.1029/92WR00802
  • C.P. Kumar and S. Mittal, Determination of soil hydraulic properties in a part of Hindon river catchment using soilprop software, ISH J. Hydraul. Eng.16 (2010), pp. 13–27. doi: 10.1080/09715010.2010.10514998
  • F. Lehmann and P. Ackerer, Comparison of iterative methods for improved solutions of the fluid flow equation in partially saturated porous media, Transp. Porous Media. 31 (1998), pp. 275–292. doi: 10.1023/A:1006555107450
  • C.W. Li, A simplified Newton iteration method with linear finite elements for transient unsaturated flow, Water Resour. Res. 29 (1993), pp. 965–971. doi: 10.1029/92WR02891
  • N. Li, X. Yue, and L. Ren, Numerical homogenization of the Richards equation for unsaturated water flow through heterogeneous soils, Water Resour. Res. 52 (2016), pp. 8500–8525. doi: 10.1002/2015WR018508
  • W. Ma and X.Y. You, Numerical simulation of plant-microbial remediation for petroleum-polluted soil, Soil Sediment Contam. 25 (2016), pp. 727–738. doi: 10.1080/15320383.2016.1204531
  • J.C. Mailhol, P. Ruelle, and Z. Popova, Simulation of furrow irrigation practices (sofip): A field-scale modelling of water management and crop yield for furrow irrigation, Irrigation Sci. 24 (2005), pp. 37–48. doi: 10.1007/s00271-005-0006-8
  • T. Miao and T. Pan, A multiphysics model for evaluating electrokinetic remediation of nuclear waste-contaminated soils, Water Air Soil Pollut. 226 (2015), p. 77. doi: 10.1007/s11270-014-2292-3
  • Y. Mualem, A new model for predicting the hydraulic conductivity of unsaturated porous media, Water Resour. Res. 12 (1976), pp. 513–522. doi: 10.1029/WR012i003p00513
  • T. Pan and T. Miao, Contamination of roadside soils by runoff pollutants: A numerical study, Transp. Geotech. 2 (2015), pp. 1–9. doi: 10.1016/j.trgeo.2014.07.006
  • G.F. Pinder and M.A. Celia, Subsurface Hydrology, John Wiley & Sons, Hoboken, NJ, 2006.
  • M. Polarski, Distributed rainfall-runoff model incorporating channel extension and gridded digital maps, Hydrol. Process. 11 (1997), pp. 1–11. doi: 10.1002/(SICI)1099-1085(199701)11:1<1::AID-HYP388>3.0.CO;2-G
  • L.A. Richards, Capillary conduction of liquids through porous mediums, Physics 1 (1931), pp. 318–333. doi: 10.1063/1.1745010
  • G.M.H. Roger, B. Clapp, Empirical equations for some soil hydraulic properties, Water Resour. Res. 14 (1978), pp. 601–604. doi: 10.1029/WR014i004p00601
  • K.E. Saxtonn, W.J. Rawls, J.S. Romberger, and R.I. Papendick, Estimating generalized soil-water characteristics from texture 1, Soil Sci. Soc. Amer. J. 50 (1986), pp. 1031–1036. doi: 10.2136/sssaj1986.03615995005000040039x
  • S.Yu Schreider, A. Jakeman, and A. Pittock, Modelling rainfall-runoff from large catchment to basin scale: The Goulburn Valley, Victoria, Hydrol. Process. 10 (1996), pp. 863–876. doi: 10.1002/(SICI)1099-1085(199606)10:6<863::AID-HYP376>3.0.CO;2-8
  • R.B. Thoms, R.L. Johnson, and R.W. Healy, User's guide to the variably saturated flow (vsf) process to modflow, Tech. Rep., 2006.
  • M.D. Tocci, C. Kelley, C.T. Miller, and C.E. Kees, Inexact newton methods and the method of lines for solving Richards' equation in two space dimensions, Comput. Geosci. 2 (1998), pp. 291–309. doi: 10.1023/A:1011562522244
  • M.T. Van Genuchten, A closed-form equation for predicting the hydraulic conductivity of unsaturated soils, Soil Sci. Soc. Amer. J. 44 (1980), pp. 892–898. doi: 10.2136/sssaj1980.03615995004400050002x
  • R.L. Zarba, E.T. Bouloutas, and M.A. Celia, A general mass-conservative numerical solution for the unsaturated flow equation, Water Resour. Res. 26 (1990), pp. 1483–1496. doi: 10.1029/WR026i007p01483

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