Pavel Bedrikovetsky mostly deals with Porous medium, Permeability, Mechanics, Petroleum engineering and Geotechnical engineering. His Porous medium research is multidisciplinary, incorporating perspectives in Hydrogeology, Mineralogy and Pore size. His Permeability research is multidisciplinary, relying on both Water injection, Pressure drop, Salinity and Coal.
Pavel Bedrikovetsky combines subjects such as Hydrology, Colloid, Stochastic modelling and Filtration with his study of Mechanics. Pavel Bedrikovetsky has researched Petroleum engineering in several fields, including Algorithm and Fossil fuel. His research in Geotechnical engineering intersects with topics in Drag and Geothermal gradient.
Pavel Bedrikovetsky spends much of his time researching Porous medium, Petroleum engineering, Mechanics, Permeability and Geotechnical engineering. His Porous medium research includes elements of Colloid, Chemical engineering, Flow and Filtration. In his study, Thermal conductivity is strongly linked to Volumetric flow rate, which falls under the umbrella field of Petroleum engineering.
His research integrates issues of Hydrogeology, Capillary action, Relative permeability and Suspension in his study of Mechanics. His Permeability study combines topics in areas such as Soil science, Water injection, Salinity, Pressure drop and Produced water. His research on Soil science often connects related areas such as Low salinity.
His primary areas of investigation include Porous medium, Permeability, Mechanics, Petroleum engineering and Soil science. His Porous medium research is under the purview of Porosity. His study in Permeability is interdisciplinary in nature, drawing from both Water injection, Pressure drop, Salinity and Aquifer.
His studies in Mechanics integrate themes in fields like Exact solutions in general relativity, Capillary pressure and Suspension. Pavel Bedrikovetsky interconnects Fossil fuel, Work and Natural fracture in the investigation of issues within Petroleum engineering. His biological study spans a wide range of topics, including Low salinity, Displacement and Relative permeability.
His primary areas of study are Permeability, Porous medium, Soil science, Salinity and Pressure drop. His Permeability research integrates issues from Porosity, Mineralogy, Kaolinite, Petroleum engineering and Geothermal gradient. His Porous medium research is multidisciplinary, incorporating elements of Two-phase flow, Exact solutions in general relativity, Constant, Colloid and Mechanics.
His Mechanics research incorporates themes from Langmuir and Filtration. The various areas that he examines in his Soil science study include Wetting, Low salinity, Enhanced oil recovery and Relative permeability. His Salinity research is multidisciplinary, relying on both Slug, Water injection and Type curve.
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Modified Particle Detachment Model for Colloidal Transport in Porous Media
Pavel Bedrikovetsky;Fernando D. Siqueira;Claudio A. Furtado;Antonio Luiz S. Souza.
Transport in Porous Media (2011)
Characterisation of deep bed filtration system from laboratory pressure drop measurements
P Bedrikovetsky;D Marchesin;F Shecaira;A.L Souza.
Journal of Petroleum Science and Engineering (2001)
Upscaling of Stochastic Micro Model for Suspension Transport in Porous Media
Transport in Porous Media (2008)
Particle Detachment Under Velocity Alternation During Suspension Transport in Porous Media
Pavel Bedrikovetsky;Abbas Zeinijahromi;Fernando D. Siqueira;Claudio A. Furtado.
Transport in Porous Media (2012)
Mathematical Theory of Oil and Gas Recovery
Pavel Bedrikovetsky;Gren Rowan.
A stochastic model for filtration of particulate suspensions with incomplete pore plugging
A. A. Shapiro;P. G. Bedrikovetsky;A. Santos;O. O. Medvedev.
Transport in Porous Media (2007)
Asymptotic model for deep bed filtration
Zhenjiang You;Yuri Osipov;Pavel Bedrikovetsky;Liudmila Kuzmina.
Chemical Engineering Journal (2014)
Mathematical Model for Fines-Migration-Assisted Waterflooding With Induced Formation Damage
Abbas Zeinijahromi;Thi Kim Phuong Nguyen;Pavel Bedrikovetsky.
Spe Journal (2013)
An experimental study of improved oil recovery through fines-assisted waterflooding
F. Hussain;A. Zeinijahromi;P. Bedrikovetsky;A. Badalyan.
Journal of Petroleum Science and Engineering (2013)
A Stochastic Model for Particulate Suspension Flow in Porous Media
A. Santos;P. Bedrikovetsky.
Transport in Porous Media (2006)
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