M
Mohamad Reza Soltanian
Researcher at University of Cincinnati
Publications - 111
Citations - 3144
Mohamad Reza Soltanian is an academic researcher from University of Cincinnati. The author has contributed to research in topics: Aquifer & Geology. The author has an hindex of 28, co-authored 89 publications receiving 1969 citations. Previous affiliations of Mohamad Reza Soltanian include Florida State University College of Arts and Sciences & Wright State University.
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Journal ArticleDOI
Optimum design of CO2 storage and oil recovery under geological uncertainty
William Ampomah,Robert Balch,Martha Cather,Robert Will,D. Gunda,Zhenxue Dai,Zhenxue Dai,Mohamad Reza Soltanian +7 more
TL;DR: In this paper, an integrated numerical framework was presented to co-optimize EOR and CO2 storage performance under uncertainty in the Farnsworth Unit (FWU) oil field in Ochiltree County, Texas.
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Effectiveness of amino acid salt solutions in capturing CO2: A review
Zhien Zhang,Zhien Zhang,Yifu Li,Wenxiang Zhang,Junlei Wang,Mohamad Reza Soltanian,Abdul Ghani Olabi +6 more
TL;DR: In this article, Amino acid salt (AAS) solutions are regarded as promising CO2 absorbents compared to traditional amine solutions, as they are environmentally being with lower evaporation as well as fewer degradation issues.
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Influence of small-scale fluvial architecture on CO 2 trapping processes in deep brine reservoirs
Naum I. Gershenzon,Robert W. Ritzi,David F. Dominic,Mohamad Reza Soltanian,Edward Mehnert,Roland T. Okwen +5 more
TL;DR: In this article, the authors used a geocellular modeling approach to represent the multiscaled and hierarchical sedimentary architecture and investigated the dynamics of CO2 plumes, during and after injection, in such reservoirs.
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Critical Dynamics of Gravito-Convective Mixing in Geological Carbon Sequestration
TL;DR: The results show that the organization of high-permeability facies and their connectivity control the dynamics of gravitationally unstable flow, which leads to new flow regimes in both homogeneous and heterogeneous media and quantitative scaling relations for their temporal evolution.
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Multiscale hyporheic exchange through strongly heterogeneous sediments
TL;DR: In this paper, the authors simulated hyporheic exchange in a representative low-gradient stream with 300 different bimodal hydraulic conductivity (K) fields composed of sand and silt.