Michael J. Benham
5 Papers
4 Citations
Michael J. Benham is an academic researcher. The author has contributed to research in topics: Chemistry & Adsorption. The author has an hindex of 2, co-authored 2 publications.
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Papers
Methane Adsorption on Shale under Simulated Geological Temperature and Pressure Conditions
TL;DR: In this paper, the adsorption of methane on a dry, organic-rich Alum shale sample was studied at pressures up to ∼14 MPa and temperatures in the range 300-473 K, which are relevant to gas storage under geological conditions.
Adsorption of Carbon Dioxide, Water Vapor, Nitrogen, and Sulfur Dioxide on Activated Carbon for Capture from Flue Gases: Competitive Adsorption and Selectivity Aspects
TL;DR: In this paper, the main flue gas components were investigated for post-combustion flue treatment for mitigating CO2 emissions and removal of acid gases, and the adsorption of these components was investigated.
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Reference isotherms for water vapor sorption on nanoporous carbon: results of an interlaboratory study
Huong Giang T. Nguyen,Blaza Toman,Roger D. van Zee,Carsten Prinz,Matthias Thommes,Riaz Ahmad,Ian M. Walton,Krista S. Walton,Darren P. Broom,Michael J. Benham,Humera Ansari,Ronny Pini,Camille Petit,Jürgen Adolphs,Andreas Schreiber,Toshihiro Shigeoka,Yuko Konishi,Kazuyuki Nakai,M. Henninger,Vladimir Martis,Thomas Paschke,Enzo Mangano,Stefano Brandani +22 more
TL;DR: The results of an international interlaboratory study sponsored by the Versailles Project on Advanced Materials and Standards (VAMAS) and led by the National Institute of Standards and Technology (NIST) on the measurement of water vapor sorption isotherms at 25 °C on a pelletized nanoporous carbon (BAM-P109, a certified reference material) are reported in this paper .
Separation of Azeotropic Hydrofluorocarbon Refrigerant Mixtures: Thermodynamic and Kinetic Modeling for Binary Adsorption of HFC-32 and HFC-125 on Zeolite 5A.
Andrew D Yancey,Darren P. Broom,M.G. Roper,Michael J. Benham,David R. Corbin,Mark B. Shiflett +5 more
TL;DR: In this article , the Spreading Pressure Dependent, modified nonrandom two-liquid, and modified Wilson activity coefficient models were fit to experimental data, and the resulting activity coefficients models were used in Real Adsorbed Solution Theory (RAST).