C
Charles J. Werth
Researcher at University of Texas at Austin
Publications - 178
Citations - 6551
Charles J. Werth is an academic researcher from University of Texas at Austin. The author has contributed to research in topics: Catalysis & Micromodel. The author has an hindex of 43, co-authored 170 publications receiving 5465 citations. Previous affiliations of Charles J. Werth include Urbana University & University of Illinois at Urbana–Champaign.
Papers
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Journal ArticleDOI
Critical Review of Pd-Based Catalytic Treatment of Priority Contaminants in Water
Brian P. Chaplin,Martin Reinhard,William F. Schneider,Christoph Schüth,John R. Shapley,Timothy J. Strathmann,Charles J. Werth +6 more
TL;DR: This review critically analyzes the published research in the area of Pd-based catalytic reduction of priority drinking water contaminants, and identifies key research areas that should be addressed.
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Evaluation of the effects of porous media structure on mixing-controlled reactions using pore-scale modeling and micromodel experiments.
TL;DR: It is suggested that subcontinuum effects can play an important role in the overall extent of mixing and reaction in groundwater, and hence may need to be considered when evaluating reactive transport.
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A review of non-invasive imaging methods and applications in contaminant hydrogeology research
TL;DR: Non-invasive imaging techniques have provided valuable insights into a variety of complex systems and processes, including porous media characterization, multiphase fluid distribution, fluid flow, solute transport and mixing, colloidal transport and deposition, and reactions.
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Effects of Natural Water Ions and Humic Acid on Catalytic Nitrate Reduction Kinetics Using an Alumina Supported Pd−Cu Catalyst
TL;DR: In this paper, the authors evaluated common anions present in natural waters and humic acid were evaluated for their effects on NO3(-) hydrogenation over a bimetallic supported catalyst (Pd-Cu/gamma-Al2O3).
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Enhanced mixing and reaction through flow focusing in heterogeneous porous media
TL;DR: In this paper, a conceptual model of heterogeneous two-dimensional structures facilitating flow focusing is developed, and simple analytical expressions quantifying the extent to which mixing and reaction are enhanced when flow focusing occurs and compare these to results of numerical simulations.