DebatesHypothesis testing in hydrology: A subsurface perspective

被引:9
作者
Neuweiler, Insa [1 ]
Helmig, Rainer [2 ]
机构
[1] Leibniz Univ Hannover, Inst Fluid Mech & Environm Phys Civil Engn, Hannover, Germany
[2] Univ Stuttgart, Inst Modelling Hydraul & Environm Syst, Stuttgart, Germany
来源
WATER RESOURCES RESEARCH | 2017年 / 53卷 / 03期
关键词
model hypotheses; subsurface flow modeling; model development; DRAINAGE FRONTS; FLOW; MEDIA; UNCERTAINTY; TRANSPORT;
D O I
10.1002/2016WR020047
中图分类号
X [环境科学、安全科学];
学科分类号
08 ; 0830 ;
摘要
Models for flow in environmental systems are subject to uncertainty. Models can thus be interpreted as hypotheses on the validity of the underlying model assumptions. One important source of uncertainty in models for flow and transport processes in the subsurface is the model concept. While uncertain model parameters or forcing terms can be captured as random processes and random fields, this type of uncertainty cannot be included into a model in a straightforward manner. This is particularly true if established model descriptions of a given process are not known or are still being debated. In this contribution, we outline several examples of subsurface flow and transport modeling where uncertainty of the model concept plays an important role. We discuss the need for the development of methods and standards to deal with this type of uncertainty in model hypothesis testing.
引用
收藏
页码:1784 / 1791
页数:8
相关论文
共 41 条
[21]   Macroscopic capillarity and hysteresis for flow in porous media [J].
Hilfer, R .
PHYSICAL REVIEW E, 2006, 73 (01)
[22]   The formation of viscous limited saturation zones behind rapid drainage fronts in porous media [J].
Hoogland, Frouke ;
Lehmann, Peter ;
Or, Dani .
WATER RESOURCES RESEARCH, 2015, 51 (12) :9862-9890
[23]   Specific interfacial area: The missing state variable in two-phase flow equations? [J].
Joekar-Niasar, V. ;
Hassanizadeh, S. M. .
WATER RESOURCES RESEARCH, 2011, 47
[24]   Integrated surface-groundwater flow modeling: A free-surface overland flow boundary condition in a parallel groundwater flow model [J].
Kollet, Stefan J. ;
Maxwell, Reed M. .
ADVANCES IN WATER RESOURCES, 2006, 29 (07) :945-958
[25]   GROUNDWATER MODELS CANNOT BE VALIDATED [J].
KONIKOW, LF ;
BREDEHOEFT, JD .
ADVANCES IN WATER RESOURCES, 1992, 15 (01) :75-83
[26]   The lamellar description of mixing in porous media [J].
Le Borgne, T. ;
Dentz, M. ;
Villermaux, E. .
JOURNAL OF FLUID MECHANICS, 2015, 770 :458-498
[27]   DebatesHypothesis testing in hydrology: A view from the field: The value of hydrologic hypotheses in designing field studies and interpreting the results to advance hydrology [J].
McKnight, Diane M. .
WATER RESOURCES RESEARCH, 2017, 53 (03) :1779-1783
[28]   Pore scale dynamics underlying the motion of drainage fronts in porous media [J].
Moebius, Franziska ;
Or, Dani .
WATER RESOURCES RESEARCH, 2014, 50 (11) :8441-8457
[29]   Modeling and analysis of evaporation processes from porous media on the REV scale [J].
Mosthaf, Klaus ;
Helmig, Rainer ;
Or, Dani .
WATER RESOURCES RESEARCH, 2014, 50 (02) :1059-1079
[30]   Perspective on theories of non-Fickian transport in heterogeneous media [J].
Neuman, Shlomo P. ;
Tartakovsky, Daniel M. .
ADVANCES IN WATER RESOURCES, 2009, 32 (05) :670-680
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