Khalid Amrouch
School of Physics, Chemistry and Earth Sciences
Faculty of Sciences, Engineering and Technology
Eligible to supervise Masters and PhD - email supervisor to discuss availability.
Khalid is a Sorbonne University Graduate (BSc, MSc and PhD).
He is a Structural Geologist with expertise in Brittle Deformation and Geomechanics, and his main interest relates to brittle tectonics, fracture characterisation, stress analyses, and fluid pressure evolution. His work within these disciplines focuses on several key research questions: Reconstruction of 4D stress patterns using analyses of faults, fractures, rock mechanics and calcite twins; 4D Quantification of stress magnitudes in orogenic settings from the scale of the individual structure to the scale of the entire fold belt or foreland basin; Understanding of the kinematics of faulting and related stress field perturbations and Overpressure evolution in geological time and at a Geo-Reservoir life-time (fluid-related rock mechanical behavior).
He started his career in 2005 at the IFP (Institut Français du Pétrole Energie Nouvelle, which sponsored his studies), followed in 2010 by a position as Researcher at Mines PariTech (PSL University). In 2012 he left Europe for South America, where he spent one year working for BHP as Exploration Geologist before joining the Australian School of Petroleum & Energy Resources – Uni. Of Adelaide (ASPER) in 2013 as Assistant Prof. and then as Associate Prof. since 2018. In 2023, Khalid joined the UM6P (GSMI) as Associate Professor (while still holding an Adj. Associate Professor position with UoA), mainly working on Subsurface Resources’ associated questions.
Khalid’s recent research has focused on integrating Geomechanical, Petrophysical and Structural techniques to better understand the evolution of the upper crust deformation and to constrain the related mechanics behind the geo-fluids migration and their mechanical effect on rocks through time and space, with key themes including understanding the role of petrophysical anisotropy and rock rheology on rock deformation and fluid mechanical behavior, with the ultimate objective of constraining the SUBSURFACE GEOMECHANICAL ROCK-FLUID INTERACTIONS.
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Khalid is a Sorbonne University Graduate (BSc, MSc and PhD).
He is a Structural Geologist with expertise in Brittle Deformation and Geomechanics, and his main interest relates to brittle tectonics, fracture characterisation, stress analyses, and fluid pressure evolution. His work within these disciplines focuses on several key research questions: Reconstruction of 4D stress patterns using analyses of faults, fractures, rock mechanics and calcite twins; 4D Quantification of stress magnitudes in orogenic settings from the scale of the individual structure to the scale of the entire fold belt or foreland basin; Understanding of the kinematics of faulting and related stress field perturbations and Overpressure evolution in geological time and at a Geo-Reservoir life-time (fluid-related rock mechanical behavior).
He started his career in 2005 at the IFP (Institut Français du Pétrole Energie Nouvelle, which sponsored his studies), followed in 2010 by a position as Researcher at Mines PariTech (PSL University). In 2012 he left Europe for South America, where he spent one year working for BHP as Exploration Geologist before joining the Australian School of Petroleum & Energy Resources – Uni. Of Adelaide (ASPER) in 2013 as Assistant Prof. and then as Associate Prof. since 2018. In 2023, Khalid joined the UM6P (GSMI) as Associate Professor (while still holding an Adj. Associate Professor position with UoA), mainly working on Subsurface Resources’ associated questions.
Khalid’s recent research has focused on integrating Geomechanical, Petrophysical and Structural techniques to better understand the evolution of the upper crust deformation and to constrain the related mechanics behind the geo-fluids migration and their mechanical effect on rocks through time and space, with key themes including understanding the role of petrophysical anisotropy and rock rheology on rock deformation and fluid mechanical behavior, with the ultimate objective of constraining the SUBSURFACE GEOMECHANICAL ROCK-FLUID INTERACTIONS.
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Appointments
Date Position Institution name 2023 - ongoing Adjunct Associate Professor University of Adelaide 2023 - ongoing Associate Professor University Mohammed VI Polytechnic 2021 - 2023 Faculty Director Strategic Partnership -Global- University of Adelaide 2018 - 2023 Senior Lecturer University of Adelaide 2013 - 2018 Lecturrer University of Adelaide 2011 - 2012 Exploration Geologist IMG - Mining & Geological Research at BHP Billiton Escondida Ltda 2010 - 2011 Reseach Engineer Mines ParisTech 2007 - 2008 Assistant Lecturer Sorbonne Universités 2005 - 2009 Structural Geologist French Institute of Petroleum -
Language Competencies
Language Competency Arabic Can read, write, speak, understand spoken and peer review Berber languages Can read, write, speak, understand spoken and peer review English Can read, write, speak, understand spoken and peer review French Can read, write, speak, understand spoken and peer review Spanish; Castilian Can read, write, speak and understand spoken -
Education
Date Institution name Country Title Sorbonne Universités France PhD Sorbonne Universités France Master Pierre and Marie Curie University France Maitrise (Equ. Honours) -
Research Interests
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Journals
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Book Chapters
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Conference Papers
Year Citation 2023 Powlay, B., Karakus, M., Amrouch, K., & Chester, C. (2023). The effect of notches on breakdown pressure during hydraulic fracturing at various stress regimes. In IOP Conference Series: Earth and Environmental Science Vol. 1124 (pp. 012027). Online: IOP Publishing.
DOI Scopus22023 Powlay, B., Karakus, M., Amrouch, K., & Chester, C. (2023). The Effect of Quantity and Spacings of Notches on Hydraulic Fracturing at Different Stress Regimes. In All Days. Atlanta, Georgia, USA: ARMA.
DOI2023 Ali, Z., Karakus, M., Nguyen, G. D., & Amrouch, K. (2023). Quantifying the discrepancies in measuring applied stresses using Tangent Modulus Method (TMM). In Procedia Structural Integrity Vol. 45 (pp. 60-65). Hybrid, Adelaide, Australia: Elsevier BV.
DOI2023 Ali, Z., Karakus, M., Nguyen, G. D., & Amrouch, K. (2023). Evaluation of non-destructive stress measurement methods for investigating stress memory in rocks. In Proceedings of the57th US Rock Mechanics/Geomechanics Symposium. Atlanta, Georgia, USA: ARMA.
DOI2023 Shokrollahi, A., Borazjani, S., Mobasher, S. S., Prempeh, K. O. K., Amrouch, K., Schacht, U., & Bedrikovetsky, P. (2023). Secondary Migration Modelling for Multivariant Exploration Planning: An Analytical Approach. In 84th EAGE Annual Conference and Exhibition Vol. 3 (pp. 2249-2253). Online: European Association of Geoscientists and Engineers, EAGE. 2022 Ali, Z., Karakus, M., Nguyen, G. D., & Amrouch, K. (2022). Application of the Full-Field Strain Measurement to Study the Kaiser Effect in Granite Under Indirect Tensile Loading. In All Days. Online: ARMA.
DOI Scopus32022 Ali, Z., Karakus, M., Nguyen, G., & Amrouch, K. (2022). The stress memory in rocks: insight from the deformation rate analysis (DRA) and acoustic emission (AE). In EGU General Assembly 2022. Vienna, Austria.
DOI2022 Powlay, B., Karakus, M., Amrouch, K., & Chester, C. (2022). A novel method to predict hydraulic fracturing breakdown pressure..
DOI2021 Ahechach, Y., Ouabid, M., Raji, O., Bodinier, J. -L., Amrouch, K., Ouali, H., & Soulaimani, A. (2021). Remote sensing characterization of transitional to alkaline igneous rocks and their potential mineralizations using ASTER data: the Moroccan Central High Atlas case study.
DOI2021 Skikra, H., Amrouch, K., Ahechach, Y., Ouabid, M., Soulaimani, A., Raji, O., & Bodinier, J. -L. (2021). Structural evolution of the Moroccan Central High Atlas Syncline-Topped Anticlinal Ridges: Insights from micro-structural analysis of Tirrhist and Anemzi ridges.
DOI2021 Ali, Z., Karakus, M., Nguyen, G., & Amrouch, K. (2021). Understanding the Kaiser effect in concrete using deformation rate analysis (DRA) and acoustic emission (AE). In ACAM10: 10th Australasian Congress on Applied Mechanics (pp. 13 pages). Australia: Engineers Australia.
Scopus22016 Kulikowski, D., Hochwald, C., Cooke, D., & Amrouch, K. (2016). A statistical approach to assessing depth conversion uncertainty on a regional dataset: Cooper-Eromanga Basin, Australia. In Proceedings of the 25th Geophysical Conference and Exhibition: Interpreting the past, discovering the future (pp. 484-490). online: ASEG-PESA-AIG.
DOI2015 Kulikowski, D., Amrouch, K., Al Barwani, K. H. M., Liu, W., & Cooke, D. (2015). Insights into the tectonic stress history and regional 4-D natural fracture distribution in the Australian Cooper Basin using Etchecopar's calcite twin stress inversion technique, 2-D/3-D seismic interpretation and natural fracture data from image logs and core. In Search and Discovery (pp. 41752-1-41752-14). Melbourne, Victoria: AAPG/Datapages. -
Conference Items
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Report for External Bodies
Year Citation 2003 AMROUCH, K. (2003). Etude Hydrogéologique de la vallée d’Aït Bouguemez (Haut Atlas d’Azilal, Maroc).
Date | Project/ No. | Investigators | Funding Body | Amount |
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2019-2021 |
Secondary migration of hydrocarbons through a novel multiscale physics theory |
Bedrikovetski P, Amrouch K, Zitha P, Shapiro A, Heinson G, Dagan G, Delvaux D |
ARC Discovery Projects | $395,000.00 |
2016-2018 | Subsurface fluid flow through fractures in sedimentary basins | King R., Holford S., Amrouch K., Healy D. and Hillis R | ARC Discovery Projects | $230,000.00 |
2015-2017 | Structural permeability mapping in Australia: De-risking geothermal exploration ahead of drilling | Hand M., King R., Holford S., Amrouch K., Healy D. and Heinson G. | ARENA | $929,278.00 |
Mar-Dec 2015 | Research Training on Drones for Environmental Applications | Koh L, Buhl J, Amrouch K, Ranasinghe D | Interdisciplinary Research Funding Scheme, UoA | $20,000.00 |
Structural Geology, Geomechanics & Seismic Methods to both UG and PG to Geoscience and Engineering students.
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Current Higher Degree by Research Supervision (University of Adelaide)
Date Role Research Topic Program Degree Type Student Load Student Name 2020 Co-Supervisor Investigating the Preconditioning to Manage Cave Backpropagation and Rock Burst Risk Doctor of Philosophy Doctorate Full Time Mr Benjamin James Powlay -
Past Higher Degree by Research Supervision (University of Adelaide)
Date Role Research Topic Program Degree Type Student Load Student Name 2020 - 2024 Co-Supervisor In-situ Stress Measurement using Non-Destructive Techniques (NDTs) Doctor of Philosophy Doctorate Full Time Mr Zulfiqar Ali 2019 - 2023 Co-Supervisor Fracture Stimulation by Nano-assisted Foam-based Fluids in High Temperature Reservoirs Doctor of Philosophy Doctorate Full Time Mr Tuan Huynh Minh Tran 2016 - 2019 Principal Supervisor A Multiscale Approach towards the Characterisation of Upper Crustal Deformation at Passive Continental Margins: A Case Study on the Otway Basin, Australia Doctor of Philosophy Doctorate Full Time Hugo Bonython Burgin 2014 - 2017 Principal Supervisor Modern Structural Analysis of Subsurface Provinces: A Case Study on the Cooper and Eromanga Basins, Australia Doctor of Philosophy Doctorate Full Time David Kulikowski 2014 - 2016 Co-Supervisor The Tectonic Evolution of Khao Khwang Fold-Thrust Belt, Central Thailand: new Insights into the Permian and Triassic Evolution of the Indosinian Orogeny in SE Asia Doctor of Philosophy Doctorate Full Time Mr Francesco Arboit 2013 - 2016 Co-Supervisor Origin of Overpressure and Pore Pressure Prediction in Carbonate Reservoirs of the Abadan Plain Basin Doctor of Philosophy Doctorate Full Time Dr Vahid Atashbari
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Committee Memberships
Date Role Committee Institution Country 2023 - ongoing Board Member Scientific commitee NFR workshop EAGE EAGE Netherlands -
Memberships
Date Role Membership Country 2014 - ongoing Member EGU Austria 2013 - ongoing Member PESA Australia 2008 - ongoing Member AAPG - -
Editorial Boards
Connect With Me
External Profiles