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Caprock integrity evaluation for geosequestration of CO2 in depleted petroleum reservoirs. (2024)
Thesis
AMINAHO, E.N. 2024. Caprock integrity evaluation for geosequestration of CO2 in depleted petroleum reservoirs. Robert Gordon University, PhD thesis. Hosted on OpenAIR [online]. Available from: https://doi.org/10.48526/rgu-wt-2445726

The geological storage of carbon dioxide (CO2), also referred to as CO2 geosequestration, represents one of the most promising options for reducing greenhouse gases in the atmosphere. However, sometimes CO2 is captured with small amounts of other ind... Read More about Caprock integrity evaluation for geosequestration of CO2 in depleted petroleum reservoirs..

Formation integrity evaluation for geosequestration of CO2 in depleted petroleum reservoirs under cyclic stress conditions. (2024)
Journal Article
AMINAHO, E.N., HOSSAIN, M., FAISAL, N.H. and SANAEE, R. 2024. Formation integrity evaluation for geosequestration of CO2 in depleted petroleum reservoirs under cyclic stress conditions. Geoenergy science and engineering [online], 238, article 212892. Available from: https://doi.org/10.1016/j.geoen.2024.212892

The geological storage of carbon dioxide (CO2), also referred to as CO2 geosequestration, represents one of the most promising options for reducing greenhouse gases in the atmosphere. However, most of the time, CO2 is captured with small amounts of o... Read More about Formation integrity evaluation for geosequestration of CO2 in depleted petroleum reservoirs under cyclic stress conditions..

Evaluation of caprock integrity for underground storage of CO2 in depleted oil and gas reservoirs using machine learning approaches. (2022)
Presentation / Conference Contribution
AMINAHO, E.N., SANAEE, R. and FAISAL, N. 2022. Evaluation of caprock integrity for underground storage of CO2 in depleted oil and gas reservoirs using machine learning approaches. Presented at the Applicability of hydrocarbon subsurface workflows to CCS conference, 28-29 April 2022, London, UK.

Carbon Dioxide (CO2) geosequestration represents one of the most promising options for reducing atmospheric emissions of CO2. Caprock integrity - ascertained based on the petrophysical and geomechanical properties of caprock - is vital to ensure safe... Read More about Evaluation of caprock integrity for underground storage of CO2 in depleted oil and gas reservoirs using machine learning approaches..

Evaluation of caprock integrity for underground storage of CO2 in depleted oil and gas reservoirs using machine learning approach. (2022)
Presentation / Conference Contribution
AMINAHO, E.N., SANAEE, R. and FAISAL, N. 2022. Evaluation of caprock integrity for underground storage of CO2 in depleted oil and gas reservoirs using machine learning approach. To be presented at 9th Annual student energy congress 2022 (ASEC 2022), 7-9 March 2022, Zagreb, Croatia.

Carbon (IV) oxide (CO2) geosequestration represents one of the most promising options for reducing atmospheric emissions of CO2. Capturing carbon dioxide is proposed as one solution to global climate change caused by anthropogenic gases in the atmosp... Read More about Evaluation of caprock integrity for underground storage of CO2 in depleted oil and gas reservoirs using machine learning approach..

Drilling geomechanical assessment using integrated reservoir workflow. (2021)
Presentation / Conference Contribution
HAMID, O., SANAEE, R. and OLUYEMI, G. [2021]. Drilling geomechanical assessment using integrated reservoir workflow. To be presented at 2021 International field exploration and development conference (IFEDC 2021): efficient development of oil and gas driven by surveillance technology, 16-18 September 2021, Qingdao, China.

Advanced geomechanical solutions for reservoir life cycle. (2021)
Presentation / Conference Contribution
HAMID, O., SANAEE, R. and OLUYEMI, G. 2021. Advanced geomechanical solutions for reservoir life cycle. To be presented at 2021 International field exploration and development conference (IFEDC 2021): efficient development of oil and gas driven by surveillance technology, 16-18 September 2021, Qingdao, China.

A critical review on coupled geomechanics and fluid flow in naturally fractured reservoirs. (2021)
Journal Article
HAWEZ, H.K., SANAEE, R. and FAISAL, N.H. 2021. A critical review on coupled geomechanics and fluid flow in naturally fractured reservoirs. Journal of natural gas science and engineering [online], 95, article 104150. Available from: https://doi.org/10.1016/j.jngse.2021.104150

Naturally fractured reservoirs have been a source of challenging issues with regard to field development, well stability, drilling, and enhanced oil recovery, as a connected fracture system can totally dominate the flow patterns. Because of the high... Read More about A critical review on coupled geomechanics and fluid flow in naturally fractured reservoirs..

Multiphase flow modelling in fractured reservoirs using a novel computational fluid dynamics approach. (2021)
Presentation / Conference Contribution
HAWEZ, H., SANAEE, R. and FAISAL, N.H. 2021. Multiphase flow modelling in fractured reservoirs using a novel computational fluid dynamics approach. Presented at the 55th US rock mechanics/geomechanics American Rock Mechanics Association (ARMA) symposium, 18-25 June 2021, [virtual conference].

Numerical modelling of multiphase flow in naturally fractured reservoirs is a challenging issue for petroleum reservoir engineers. As a result of high degree heterogeneity in flow characteristics in fractured reservoirs, several mathematical, discret... Read More about Multiphase flow modelling in fractured reservoirs using a novel computational fluid dynamics approach..

Horizontal stress rotation due to reservoir depletion. (2021)
Presentation / Conference Contribution
HAMID, O., SANAEE, R. and OLUYEMI, G. 2021. Horizontal stress rotation due to reservoir depletion. Presented at 55th US rock mechanics/geomechanics American Rock Mechanics Association (ARMA) symposium, 18-25 June 2021, [virtual conference].

The principal stress rotations axes are observed due to fluid injection into reservoirs, hydrocarbon production, and around the fractures during wellbore stimulation operation and faults. Local stress fields around the fractures will change during re... Read More about Horizontal stress rotation due to reservoir depletion..

Coupled reservoir geomechanics and multiphase flow in fractured porous media. (2020)
Presentation / Conference Contribution
HAWEZ, H., SANAEE, R. and FAISAL, N. 2020. Coupled reservoir geomechanics and multiphase flow in fractured porous media. Presented at the 9th ETP (Energy Technology Partnership) annual conference 2020 (ETPAC20), 2-3 November 2020, [virtual conference].

As a result of a rapid pressure reduction and lack of understanding of hydromechanical behaviour at the fracture matrix interface, a considerable amount of hydrocarbon reserves will remain in place in fractured reservoirs. Therefore, rigid numerical... Read More about Coupled reservoir geomechanics and multiphase flow in fractured porous media..

Neutron scattering of sandstone subjected to uniaxial compression in cryogenic conditions. [Dataset] (2019)
Data
FAISAL, N., LEE, T.L., KELLEHER, J., SANAEE, R. and PANCHOLI, K. 2019. Neutron scattering of sandstone subjected to uniaxial compression in cryogenic conditions. [Dataset]. Hosted on STFC ISIS neutron and muon source data journal [online]. Available from: https://doi.org/10.5286/ISIS.E.RB1920741-1

The exploitation of unconventional remote geological resources, such as those in Arctic formations, requires engineering designs that withstand the temperatures and pressures encountered. In a previous experiment (RB1810235, April 2018) comparing san... Read More about Neutron scattering of sandstone subjected to uniaxial compression in cryogenic conditions. [Dataset].

Neutron scattering study of strain behaviour of porous rocks subjected to heating and unconfined uniaxial compression. (2018)
Presentation / Conference Contribution
FAISAL, N.H., SANAEE, R., SINGH, R.M., MURRAY, J., MCLAUGHLIN, A., HEALY, D. and LEE, T.-L. 2018. Neutron scattering study of strain behaviour of porous rocks subjected to heating and unconfined uniaxial compression. Journal of physics: conference series [online], 1106: proceedings of the 2018 Modern practice in stress and vibration analysis (MPSVA 2018), 2-4 July 2018, Cambridge, UK, article ID 012011. Available from: https://doi.org/10.1088/1742-6596/1106/1/012011

Neutron scattering (at ENGIN-X) was used to examine strain distributions in two hydrocarbon reservoir rock types (i.e. sandstone and chalk) under uniaxial stress (up to 35 MPa) at temperature as high as 70 °C to utilise the advantages of neutron scat... Read More about Neutron scattering study of strain behaviour of porous rocks subjected to heating and unconfined uniaxial compression..

Neutron scattering of porous rocks subjected to uniaxial compression in cryogenic conditions for offshore drilling operations in Arctic. [Dataset] (2018)
Data
FAISAL, N., SANAEE, R., LEE, T.L., MCLAUGHLIN, A. and SINGH, R.M. 2018. Neutron scattering of porous rocks subjected to uniaxial compression in cryogenic conditions for offshore drilling operations in Arctic. [Dataset]. Hosted on STFC ISIS neutron and muon source data journal [online]. Available from: https://doi.org/10.5286/ISIS.E.92924528

In August 2015, the oil and gas company (Royal Dutch Shell plc) were granted the final permit it needs to begin drilling below the ocean floor for oil in the Arctic. They have been allowed to drill just the top sections of two wells, off the coast of... Read More about Neutron scattering of porous rocks subjected to uniaxial compression in cryogenic conditions for offshore drilling operations in Arctic. [Dataset].

Neutron scattering study of stress-strain behaviour of porous geological materials. [Dataset] (2017)
Data
FAISAL, N., KABRA, S., SANAEE, R. and SINGH, R.M. 2017. Neutron scattering study of stress-strain behaviour of porous geological materials. [Dataset]. Hosted on STFC ISIS neutron and muon source [online]. Available from: https://doi.org/10.5286/ISIS.E.87813334

Quantifying the relationship between stress-strain and fracture is important to the perfection of fracture capability if it is to be used as a tool for guiding failure operations in geological materials drilling. The development of fracture predictio... Read More about Neutron scattering study of stress-strain behaviour of porous geological materials. [Dataset].

Geomechanically coupled modelling of fluid flow partitioning in fractured porous media. (2015)
Thesis
SANAEE, R. 2015. Geomechanically coupled modelling of fluid flow partitioning in fractured porous media. Robert Gordon University, PhD thesis. Hosted on OpenAIR [online]. Available from: https://doi.org/10.48526/rgu-wt-2048927

Naturally fractured reservoirs are characterised with complex hydro-mechanical dynamics. In these reservoirs, hydrocarbons can be stored and produced from the rock matrix, the fracture network, or both. Normally the fracture network is depleted much... Read More about Geomechanically coupled modelling of fluid flow partitioning in fractured porous media..

Stress effects on flow partitioning in fractured reservoirs: equivalent porous media versus poro-elasticity coupled modeling. (2013)
Presentation / Conference Contribution
SANAEE, R., OLUYEMI, G.F., HOSSAIN, M. and OYENEYIN, M.B. 2013. Stress effects on flow partitioning in fractured reservoirs: equivalent porous media versus poro-elasticity coupled modeling. In Pyrak-Nolte, L.J., Morris, J., Chan, A., Rostami, J. and Dershowitz, W. (eds.) Proceedings of the 47th U.S. rock mechanics/geomechanics American Rock Mechanics Association (ARMA) symposium 2013, 23-26 June 2013, San Francisco, USA. Alexandira, VA: American Rock Mechanics Association (ARMA), 3, pages 2329-2337.

In this paper the effects of overburden stress on fracture-matrix flow partitioning were numerically analyzed using two different numerical approaches; the analysis was validated using a fractured Clashach core flood laboratory experimental data. In... Read More about Stress effects on flow partitioning in fractured reservoirs: equivalent porous media versus poro-elasticity coupled modeling..