Continuum-scale models have long been used to study subsurface flow, transport, and reactions but lack the ability to resolve processes that are governed by pore-scale mixing. Recently, pore-scale models, which explicitly resolve individual pores and soil grains, have been developed to more accurately model pore-scale phenomena, particularly reaction processes that are controlled by local mixing. However, pore-scale models are prohibitively expensive for modeling application-scale domains. This motivates the use of a hybrid multiscale approach in which continuum- and pore-scale codes are coupled either hierarchically or concurrently within an overall simulation domain (time and space). This approach is naturally suited to an adaptive, loose...
Simulations in the subsurface environment represent a broad range of phenomena covering an equally b...
Flow and transport phenomena in porous media are the governing processes in many natural and industr...
To the best of our knowledge, one or more authors of this paper were federal employees when contribu...
Continuum scale models have been used to study subsurface flow, transport, and reactions for many ye...
Many subsurface flow and transport problems of importance today involve coupled non-linear flow, tra...
Abstract. Many subsurface flow and transport problems of importance today involve coupled non-linear...
AbstractExtensive research is aimed at improving predictive ability of biogeochemical earth and envi...
Abstract. This paper will provide a brief overview of two frameworks being developed for subsurface ...
Abstract Pore-scale models are becoming increasingly useful as predictive tools for modeling flow an...
The scale-dependence of geochemical reaction rates hinders their use in continuum scale models inten...
International audienceNumerical models for flow and transport in porous media are valid for a partic...
Darcy-scale simulation of geochemical reactive transport has proven to be a useful tool to gain mech...
textFlow and transport phenomena in the subsurface often span a wide range of length (nanometers to ...
textMany engineering and scientific applications of flow in porous media are characterized by transp...
Subsurface processes represent a class of important phenomena that occurs in many nat- ural and anth...
Simulations in the subsurface environment represent a broad range of phenomena covering an equally b...
Flow and transport phenomena in porous media are the governing processes in many natural and industr...
To the best of our knowledge, one or more authors of this paper were federal employees when contribu...
Continuum scale models have been used to study subsurface flow, transport, and reactions for many ye...
Many subsurface flow and transport problems of importance today involve coupled non-linear flow, tra...
Abstract. Many subsurface flow and transport problems of importance today involve coupled non-linear...
AbstractExtensive research is aimed at improving predictive ability of biogeochemical earth and envi...
Abstract. This paper will provide a brief overview of two frameworks being developed for subsurface ...
Abstract Pore-scale models are becoming increasingly useful as predictive tools for modeling flow an...
The scale-dependence of geochemical reaction rates hinders their use in continuum scale models inten...
International audienceNumerical models for flow and transport in porous media are valid for a partic...
Darcy-scale simulation of geochemical reactive transport has proven to be a useful tool to gain mech...
textFlow and transport phenomena in the subsurface often span a wide range of length (nanometers to ...
textMany engineering and scientific applications of flow in porous media are characterized by transp...
Subsurface processes represent a class of important phenomena that occurs in many nat- ural and anth...
Simulations in the subsurface environment represent a broad range of phenomena covering an equally b...
Flow and transport phenomena in porous media are the governing processes in many natural and industr...
To the best of our knowledge, one or more authors of this paper were federal employees when contribu...