Physics of water repellent soils

被引:155
|
作者
Bauters, TWJ
Steenhuis, TS [1 ]
DiCarlo, DA
Nieber, JL
Dekker, LW
Ritsema, CJ
Parlange, JY
Haverkamp, R
机构
[1] Cornell Univ, Dept Agr & Biol Engn, Ithaca, NY 14853 USA
[2] Stanford Univ, Dept Petr Engn, Stanford, CA 94035 USA
[3] Univ Minnesota, Dept Biosyst & Agr Engn, St Paul, MN 55108 USA
[4] Green World Res, Alterra, NL-6700 AA Wageningen, Netherlands
[5] Lab Etud Transferts Hydrol & Environm, F-38041 Grenoble 9, France
来源
JOURNAL OF HYDROLOGY | 2000年 / 231卷
关键词
contact angle; infiltration; preferential row; fingered flow; surfactant; constitutive relationships;
D O I
10.1016/S0022-1694(00)00197-9
中图分类号
TU [建筑科学];
学科分类号
0813 ;
摘要
Although it is generally well known that water repellent soils have distinct preferential flow patterns, the physics of this phenomenon is not well understood, In this paper, we show that water repellency affects the soil water contact angle and this, in turn, has a distinct effect on the constitutive relationships during imbibing. Using these constitutive relationships, unstable flow theory developed for coarse grained soils can be used to predict the shape and water content distribution for water repellent soils. A practical result of this paper is that with a basic experimental setup, we can characterize the imbibing front behavior by measuring the water entry pressure and the imbibing soil characteristic curve from the same heat treated soil. (C) 2000 Elsevier Science B.V. All rights reserved.
引用
收藏
页码:233 / 243
页数:11
相关论文
共 50 条
  • [41] Compaction and Strength Characteristics of Engineered Water Repellent Frost Susceptible Soils
    Malisher, Mackenzie
    Daniels, John
    Uduebor, Micheal
    Saulick, Yunesh
    [J]. GEO-CONGRESS 2023: SOIL IMPROVEMENT, GEOENVIRONMENTAL, AND SUSTAINABILITY, 2023, 339 : 452 - 461
  • [42] Effects of clay amendment on adsorption and desorption of copper in water repellent soils
    Xiong, X
    Stagnitti, F
    Allinson, G
    Turoczy, N
    Li, P
    LeBlanc, M
    Cann, MA
    Doerr, SH
    Steenhuis, TS
    Parlange, JY
    de Rooij, G
    Ritsema, CJ
    Dekkerg, LW
    [J]. AUSTRALIAN JOURNAL OF SOIL RESEARCH, 2005, 43 (03): : 397 - 402
  • [43] EXTRACTION AND CHARACTERIZATION OF WATER-REPELLENT MATERIALS FROM AUSTRALIAN SOILS
    MASHUM, M
    TATE, ME
    JONES, GP
    OADES, JM
    [J]. JOURNAL OF SOIL SCIENCE, 1988, 39 (01): : 99 - 110
  • [44] DISTRIBUTION FLOW - A GENERAL PROCESS IN THE TOP LAYER OF WATER REPELLENT SOILS
    RITSEMA, CJ
    DEKKER, LW
    [J]. WATER RESOURCES RESEARCH, 1995, 31 (05) : 1187 - 1200
  • [45] A numerical model of heat and water movement in furrow-sown water repellent sandy soils
    Yang, BJ
    Blackwell, PS
    Nicholson, DF
    [J]. WATER RESOURCES RESEARCH, 1996, 32 (10) : 3051 - 3061
  • [46] Water infiltration into subcritical water-repellent soils with time-dependent contact angle
    Wang, Zhongfu
    Wallach, Rony
    [J]. JOURNAL OF HYDROLOGY, 2021, 595
  • [47] Using spectral reflectance to document water stress in bermudagrass grown on water repellent sandy soils
    Park, Dara M.
    Cisar, John L.
    Williams, Karen E.
    McDermitt, Dayle K.
    Miller, William P.
    Fidanza, Michael A.
    [J]. HYDROLOGICAL PROCESSES, 2007, 21 (17) : 2385 - 2389
  • [48] Water-soil interactions: Unravelling the processes and stages involved in the wetting of water repellent soils
    Balshaw, Helen M.
    Douglas, Peter
    Doerr, Stefan H.
    [J]. JOURNAL OF HYDROLOGY, 2023, 20
  • [49] Performance of HYDRUS-1D for simulating water movement in water-repellent soils
    Wang, Xiaofang
    Li, Yi
    Wang, Yichen
    Liu, Chuncheng
    [J]. CANADIAN JOURNAL OF SOIL SCIENCE, 2018, 98 (03) : 407 - 420
  • [50] Three-term formulation to describe infiltration in water-repellent soils
    Yilmaz, Deniz
    Di Prima, Simone
    Stewart, Ryan D.
    Najm, Majdi R. Abou
    Fernandez-Moret, David
    Latorre, Borja
    Lassabatere, Laurent
    [J]. GEODERMA, 2022, 427
12345