Sevket Durucan mainly investigates Petroleum engineering, Permeability, Coalbed methane, Coal and Methane. In his work, Reservoir simulation and Co2 storage is strongly intertwined with Coal mining, which is a subfield of Petroleum engineering. His Permeability research is multidisciplinary, incorporating perspectives in Wellbore, Porosity, Compressibility and Soil science.
In his study, which falls under the umbrella issue of Coalbed methane, Swelling is strongly linked to Carbon dioxide. In his study, Life-cycle assessment is inextricably linked to Fossil fuel, which falls within the broad field of Coal. His Methane research is multidisciplinary, relying on both Mineralogy and Natural gas.
His main research concerns Petroleum engineering, Permeability, Co2 storage, Geotechnical engineering and Coal. His studies deal with areas such as Carbon dioxide, Natural gas and Coalbed methane, Coal mining as well as Petroleum engineering. His Coalbed methane study deals with Methane intersecting with Mineralogy and Enhanced coal bed methane recovery.
His Permeability research focuses on Porosity and how it relates to Halite. In the field of Geotechnical engineering, his study on Caprock, Overburden pressure and Pore water pressure overlaps with subjects such as Core sample. His work on Underground coal gasification as part of general Coal research is often related to Syngas, thus linking different fields of science.
Sevket Durucan mainly focuses on Petroleum engineering, Co2 storage, Leakage, Geotechnical engineering and Coal mining. His Petroleum engineering study combines topics in areas such as Life-cycle assessment, Coal gasification, Greenhouse gas and Fracture. His Porosity and Permeability investigations are all subjects of Geotechnical engineering research.
He combines subjects such as Portland cement, Cement, Volumetric flow rate and Overburden pressure with his study of Porosity. He regularly ties together related areas like Effective stress in his Permeability studies. Microseism is closely connected to Mining engineering in his research, which is encompassed under the umbrella topic of Coal mining.
Sevket Durucan focuses on Geotechnical engineering, Permeability, Porosity, Co2 storage and Full scale. In the subject of general Geotechnical engineering, his work in Porous medium is often linked to Polymer gel, European commission and Flow diversion, thereby combining diverse domains of study. His study ties his expertise on Effective stress together with the subject of Permeability.
His Porosity study frequently draws connections to adjacent fields such as Overburden pressure. His Co2 storage study results in a more complete grasp of Petroleum engineering. Throughout his Full scale studies, Sevket Durucan incorporates elements of other sciences such as Portland cement, Cement, Co2 leakage and Volumetric flow rate.
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Drawdown Induced Changes in Permeability of Coalbeds: A New Interpretation of the Reservoir Response to Primary Recovery
J. Q. Shi;S. Durucan.
Transport in Porous Media (2004)
A model for changes in coalbed permeability during primary and enhanced methane, recovery
Ji-Quan Shi;S. Durucan.
Spe Reservoir Evaluation & Engineering (2005)
River flow prediction using artificial neural networks: generalisation beyond the calibration range.
C.E. Imrie;S. Durucan;A. Korre.
Journal of Hydrology (2000)
A bidisperse pore diffusion model for methane displacement desorption in coal by CO2 injection
J.Q. Shi;S. Durucan.
Supercritical CO2 core flooding and imbibition in Tako sandstone—Influence of sub-core scale heterogeneity
Ji-Quan Shi;Ziqiu Xue;Sevket Durucan.
International Journal of Greenhouse Gas Control (2011)
Mining life cycle modelling: a cradle-to-gate approach to environmental management in the minerals industry
Sevket Durucan;Anna Korre;Gabriela Munoz-Melendez.
Journal of Cleaner Production (2006)
Life cycle modelling of fossil fuel power generation with post-combustion CO2 capture
Anna Korre;Zhenggang Nie;Sevket Durucan.
International Journal of Greenhouse Gas Control (2010)
A reservoir simulation study of CO2 injection and N2 flooding at the Ishikari coalfield CO2 storage pilot project, Japan
Ji-Quan Shi;Sevket Durucan;Masaji Fujioka.
International Journal of Greenhouse Gas Control (2008)
Matrix shrinkage and swelling characteristics of European coals
Sevket Durucan;Mustafa Ahsanb;Ji-Quan Shia.
Energy Procedia (2009)
Exponential Growth in San Juan Basin Fruitland Coalbed Permeability With Reservoir Drawdown: Model Match and New Insights
Ji-Quan Shi;Sevket Durucan.
Spe Reservoir Evaluation & Engineering (2010)
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