Issue Date | Title | Author(s) |
15-Aug-2016 | Carbon sequestration potential of the South Wales Coalfield | Sarhosis, V; Hosking, LJ; Thomas, HR |
26-May-2020 | A coupled compressible flow and geomechanics model for dynamic fracture aperture during carbon sequestration in coal | Chen, M; Hosking, LJ; Sandford, RJ; Thomas, HR |
2019 | Deep seam and minesoil carbon sequestration potential of the South Wales Coalfield, UK | Detheridge, A; Hosking, LJ; Thomas, HR; Sarhosis, V; Gwynn-Jones, D; Scullion, J |
25-Oct-2017 | A dual porosity model of high-pressure gas flow for geoenergy applications | Hosking, LJ; Thomas, HR; Sedighi, M |
29-Feb-2020 | Dual porosity modelling of coal core flooding experiments with carbon dioxide | Hosking, LJ; Thomas, HR |
26-Jan-2019 | Dual porosity modelling of the coupled mechanical response of coal to gas flow and adsorption | Chen, M; Hosking, LJ; Sandford, RJ; Thomas, HR |
5-Jun-2024 | Geospatial analysis of unconventional geothermal resources and their potential role in decarbonising heat in Great Britain | Howes, J; Hosking, LJ |
20-Aug-2020 | The influence of coupled physical swelling and chemical reactions on deformable geomaterials | Ma, Y; Chen, XH; Hosking, LJ; Yu, HS; Thomas, HR; Norris, S |
5-May-2018 | An Investigation of the Pseudo-steady State Approach to Modelling Inter-porosity Flow in Fractured Geomaterials | Hosking, LJ; Thomas, HR |
Nov-2020 | Numerical analysis of dual porosity coupled thermo-hydro-mechanical behaviour during CO2 sequestration in coal | Hosking, LJ; Chen, M; Thomas, HR |
23-Mar-2020 | Numerical Analysis of Improvements to CO2 Injectivity in Coal Seams Through Stimulated Fracture Connection to the Injection Well | Chen, M; Hosking, LJ; Sandford, RJ; Thomas, HR |
6-Jul-2022 | A numerical modelling study to support design of an in-situ CO2 injection test facility using horizontal injection well in a shallow-depth coal seam | Masum, SA; Chen, M; Hosking, LJ; StaĆczyk, K; Kapusta, K; Thomas, HR |
26-Nov-2021 | THMC constitutive model for membrane geomaterials based on Mixture Coupling Theory | Ma, Y; Chen, X; Hosking, LJ; Yu, H-S; Thomas, HR |