Henning Prommer focuses on Aquifer, Groundwater, Environmental engineering, Hydrology and Groundwater flow. His Aquifer research includes elements of Water quality and Redox. His Groundwater research incorporates themes from Biogeochemistry, Sorption and Dissolution.
He works mostly in the field of Dissolution, limiting it down to topics relating to Environmental remediation and, in certain cases, Computer simulation, Process engineering and Geochemical modeling, as a part of the same area of interest. Henning Prommer interconnects Soil science, BTEX, Plume and Contamination in the investigation of issues within Environmental engineering. His Hydrology research includes themes of Carbonate, Dolomite, Flow and Biogeochemical cycle.
His main research concerns Groundwater, Aquifer, Environmental chemistry, Environmental engineering and Hydrology. His Groundwater research incorporates elements of Soil science, Biogeochemical cycle and Environmental remediation. Henning Prommer focuses mostly in the field of Aquifer, narrowing it down to topics relating to Carbonate and, in certain cases, Geochemistry.
The study incorporates disciplines such as Arsenic, Degradation, Dissolution, Pyrite and Sulfate in addition to Environmental chemistry. His Hydrology study combines topics from a wide range of disciplines, such as Hydraulic conductivity, Flow and Pollutant. His work focuses on many connections between Groundwater flow and other disciplines, such as Plume, that overlap with his field of interest in Porous medium.
The scientist’s investigation covers issues in Groundwater, Arsenic, Aquifer, Environmental chemistry and Groundwater recharge. He combines subjects such as Hydrogeology, Soil science, Biogeochemical cycle and Environmental remediation with his study of Groundwater. His Arsenic research is multidisciplinary, incorporating elements of Hydrology, Contamination, Sediment and Mobilization.
He studies Groundwater flow which is a part of Aquifer. His Environmental chemistry study combines topics from a wide range of disciplines, such as Sulfate and Dissolution. His Groundwater recharge research includes elements of Water treatment, Carbonate and Water resource management.
Henning Prommer spends much of his time researching Arsenic, Groundwater, Aquifer, Organic matter and Biogeochemical cycle. His Arsenic study incorporates themes from Hydrology, Groundwater quality and Environmental engineering. Henning Prommer has included themes like Sediment, Pleistocene and Mobilization in his Hydrology study.
Groundwater flow is the focus of his Aquifer research. His Groundwater flow study frequently involves adjacent topics like Holocene. His studies deal with areas such as Groundwater discharge, Environmental chemistry, Biogeochemistry, Sulfate and Isotope fractionation as well as Organic matter.
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MODFLOW/MT3DMS‐Based Reactive Multicomponent Transport Modeling
H. Prommer;H. Prommer;D.A. Barry;C. Zheng.
Ground Water (2003)
Analytical approximations for real values of the Lambert W -function
D. A. Barry;J.-Y. Parlange;L. Li;H. Prommer.
Mathematics and Computers in Simulation (2000)
Modelling the fate of oxidisable organic contaminants in groundwater
D.A. Barry;H. Prommer;C.T. Miller;Peter Knudegaard Engesgaard.
Advances in Water Resources (2002)
Tide‐induced recirculation across the aquifer‐ocean interface
C. Robinson;L. Li;L. Li;H. Prommer.
Water Resources Research (2007)
Identification of temperature-dependent water quality changes during a deep well injection experiment in a pyritic aquifer
Henning Prommer;Pieter J. Stuyfzand.
Environmental Science & Technology (2005)
Three-dimensional model for multi-component reactive transport with variable density groundwater flow
X. Mao;H. Prommer;D. A. Barry;C. D. Langevin.
Environmental Modelling and Software (2006)
Modeling Seasonal Redox Dynamics and the Corresponding Fate of the Pharmaceutical Residue Phenazone During Artificial Recharge of Groundwater
Janek Greskowiak;Henning Prommer;Gudrun Massmann;Gunnar Nützmann.
Environmental Science & Technology (2006)
The impact of variably saturated conditions on hydrogeochemical changes during artificial recharge of groundwater
Janek Greskowiak;Henning Prommer;Gudrun Massmann;Colin D. Johnston.
Applied Geochemistry (2005)
Modelling of physical and reactive processes during biodegradation of a hydrocarbon plume under transient groundwater flow conditions.
H Prommer;D.A Barry;G.B Davis.
Journal of Contaminant Hydrology (2002)
Colloid release and clogging in porous media: Effects of solution ionic strength and flow velocity.
Saeed Torkzaban;Scott A. Bradford;Joanne L. Vanderzalm;Bradley M. Patterson.
Journal of Contaminant Hydrology (2015)
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