V
Vikram Vishal
Researcher at Indian Institute of Technology Bombay
Publications - 88
Citations - 2856
Vikram Vishal is an academic researcher from Indian Institute of Technology Bombay. The author has contributed to research in topics: Oil shale & Coal. The author has an hindex of 27, co-authored 71 publications receiving 1925 citations. Previous affiliations of Vikram Vishal include Monash University & Monash University, Clayton campus.
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An experimental investigation on behaviour of coal under fluid saturation, using acoustic emission
TL;DR: In this paper, the authors investigated the influence of CO 2 on the geomechanical attributes of coal and found that the strength of coal samples reduced in each case of gas and moisture saturation.
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Influence of sorption time in CO2-ECBM process in Indian coals using coupled numerical simulation
TL;DR: In this article, the authors investigated the role of sorption time in the production behavior of coal under carbon dioxide injection using numerical simulation and found that coal seams with high sorption times are usually not suitable from an economical point of view.
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Effects of strain rate on fracture toughness and energy release rate of gas shales
TL;DR: In this article, the effects of various strain rates on the fracture toughness as well as the energy-release rate of gas shales were investigated using three-point bending method was applied using notched semicircular bending shale specimens that were prepared as per the international standards.
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CO2 permeability of Indian bituminous coals: Implications for carbon sequestration
TL;DR: In this paper, the authors present the results of changing effective stresses, in terms of confining stresses and pore pressure, incorporating the role of coal swelling with time on the flow pattern of gaseous CO 2.
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Methane and CO2 Adsorption Capacities of Kerogen in the Eagle Ford Shale from Molecular Simulation.
TL;DR: Taking into consideration aspects of kerogen and shale characterization in general will lead to improvements in estimating the CH4 and CO2 storage potential of gas shales, and the role of surface chemistry on modeled kerogen pore surfaces was investigated.