Add to ORKGThe prediction of contaminant transport in saturated fractured media is a difficult task, due to the complexity of fracture geometry, connectivity, heterogeneity and anisotropy of hydraulic conductivities and chemical processes. Generally, the simulation of contaminant transport in fractured media is by the discrete fracture network (DFN) approach. However, this approach is not appropriate for district to regional scale due to computational challenges and the extensive data required by discrete fracture models for fracture system characterisation. In this paper, a hybrid approach that combined the advective-dispersion equation (ADE) continuum model, and discrete fracture network (DFN) simulation is used for the prediction of the contaminant...
A computer program, which enables us the calculation of the non-Fickian diffusion in a fractured por...
This paper presents solute concentration profiles with constant, linear and exponential distance-dep...
Modeling flow and transport of pollutants in fractured and karstic aquifers remains an open issue. I...
Information on the role fracture properties plays in groundwater flow and solute transport in crysta...
A computer program, which enables us to calculate the anomalous non-Fickian contaminant transport in...
A new method for simulating solute transport and geochemical interactions within fractured rock is p...
A numerical tool, called Hydro-Geosphere, was used to simulate unsaturated water flow and contaminan...
14 pagesThe knowledge of flow and transport phenomena in fractured rocks is very important in hydrog...
Solute transport in the fractured porous confined aquifer is modeled by the advection-dispersion equ...
The knowledge of flow and transport phenomena in fractured rocks is very important in hydrogeologic ...
It is known that there is a certain unpredictability associated with fractured and karstified rock f...
Summarization: A mathematical model has been developed to study the cotransport of contaminants wit...
In crystalline rock groundwater flows predominantly in fractures and fissures. Strongly varying frac...
A simulation technique is developed to assess the impact of shallow reinjection of geothermal wastew...
A computer program, which enables us the calculation of the non-Fickian diffusion in a fractured por...
This paper presents solute concentration profiles with constant, linear and exponential distance-dep...
Modeling flow and transport of pollutants in fractured and karstic aquifers remains an open issue. I...
Information on the role fracture properties plays in groundwater flow and solute transport in crysta...
A computer program, which enables us to calculate the anomalous non-Fickian contaminant transport in...
A new method for simulating solute transport and geochemical interactions within fractured rock is p...
A numerical tool, called Hydro-Geosphere, was used to simulate unsaturated water flow and contaminan...
14 pagesThe knowledge of flow and transport phenomena in fractured rocks is very important in hydrog...
Solute transport in the fractured porous confined aquifer is modeled by the advection-dispersion equ...
The knowledge of flow and transport phenomena in fractured rocks is very important in hydrogeologic ...
It is known that there is a certain unpredictability associated with fractured and karstified rock f...
Summarization: A mathematical model has been developed to study the cotransport of contaminants wit...
In crystalline rock groundwater flows predominantly in fractures and fissures. Strongly varying frac...
A simulation technique is developed to assess the impact of shallow reinjection of geothermal wastew...
A computer program, which enables us the calculation of the non-Fickian diffusion in a fractured por...
This paper presents solute concentration profiles with constant, linear and exponential distance-dep...
Modeling flow and transport of pollutants in fractured and karstic aquifers remains an open issue. I...