Add to ORKGpeer-reviewedUnder the influence of regional groundwater ow, pollution in an aquifer can migrate to streams or wells. This can have catastrophic consequences for human health and local ecosystems. Fortunately, there is a suite of microorganisms that exist in the subsurface that can convert contaminants into less toxic chemicals. In this thesis, we seek to model the interaction between these microbial populations and the contaminant. A reaction-transport model is created to describe the migration of chemical species in a subsurface environment. With this model, we derive an expression for the location of a reaction front in the plume and the speed at which it moves. Oscillatory chemical concentration pro les are frequently observe...
Microorganisms in groundwater form ecosystems that can transform chemical compounds. Quantitatively ...
The objectives of this research are to develop a comprehensive mathematical model describing in-situ...
Microorganisms in groundwater form ecosystems that can transform chemical compounds. Quantitatively ...
Abstract The incorporation of microbial processes into reactive transport models has generally proce...
Prediction of the fate and environmental impacts of groundwater contaminants requires the identifica...
The present study investigates the interaction between microbial growth and activity and the redox d...
'Dynamic microbial attachment/detachment occurs in subsurface systems in response to changing enviro...
International audiencen subsurface environments, bacteria play a major role in controlling the kinet...
Aromatic hydrocarbons belong to the most abundant contaminants in groundwater systems. They can serv...
International audiencen subsurface environments, bacteria play a major role in controlling the kinet...
International audiencen subsurface environments, bacteria play a major role in controlling the kinet...
A biodegradation model with consecutive fermentation and respiration processes, developed from micro...
International audienceIn subsurface environments, bacteria play a major role in controlling the kine...
International audienceIn subsurface environments, bacteria play a major role in controlling the kine...
Biogeochemical reactions and vadose zone transport, in particular gas phasetransport, are inherently...
Microorganisms in groundwater form ecosystems that can transform chemical compounds. Quantitatively ...
The objectives of this research are to develop a comprehensive mathematical model describing in-situ...
Microorganisms in groundwater form ecosystems that can transform chemical compounds. Quantitatively ...
Abstract The incorporation of microbial processes into reactive transport models has generally proce...
Prediction of the fate and environmental impacts of groundwater contaminants requires the identifica...
The present study investigates the interaction between microbial growth and activity and the redox d...
'Dynamic microbial attachment/detachment occurs in subsurface systems in response to changing enviro...
International audiencen subsurface environments, bacteria play a major role in controlling the kinet...
Aromatic hydrocarbons belong to the most abundant contaminants in groundwater systems. They can serv...
International audiencen subsurface environments, bacteria play a major role in controlling the kinet...
International audiencen subsurface environments, bacteria play a major role in controlling the kinet...
A biodegradation model with consecutive fermentation and respiration processes, developed from micro...
International audienceIn subsurface environments, bacteria play a major role in controlling the kine...
International audienceIn subsurface environments, bacteria play a major role in controlling the kine...
Biogeochemical reactions and vadose zone transport, in particular gas phasetransport, are inherently...
Microorganisms in groundwater form ecosystems that can transform chemical compounds. Quantitatively ...
The objectives of this research are to develop a comprehensive mathematical model describing in-situ...
Microorganisms in groundwater form ecosystems that can transform chemical compounds. Quantitatively ...