PhD Petroleum Engineering, University of Calgary
MEng Petroleum Engineering, University of Calgary
Recipient of the College of Physical Sciences Award for Excellence in Teaching in 2017.
- Unconventional hydrocarbon resources - modelling hydraulic fracturing process
- Experimental investigation of foam assisted EOR processes
- Integration of nano-technology and EOR processes
- Thermal/non-thermal recovery from heavy oil and conventional oil reservoirs (CSS, waterflood, thermal-solvent)
- Leakage from hydraulic fractures/wellbore integrity issues
- Multiphase flow in nano-pores
- Well P&A (new material for well abondonment)
- Application fo Nano-technology in oil recovery, The Royal Society 2017-2018
- Investigation of Nano-foam rheology at reservoir conditions, The Carnegie Trust for the Universities of Scotland 2017-2018
- Modelling oil recovery processes through smart waterflooding, Ghana Education Trust Fund (GETFUND) 2017-2020
- Emerging enhanced oil recovery processes for carbonate reservoirs, Sudanese Ministry of Education 2017-2020
- Environmentally friendly drilling fluid designs for directional and deep water drillings, Indonesia Endowment Fund for Education, Ministry of Finance, Indonesia 2016-2019
- Development Trust Fund Chevron 2016
I am always looking for motivated and independent PhD applicants with a strong technical/scientific background and interest in above areas. If interested, please send by email (no phone calls please) a CV, and a statement of research interests (1 page). I will contact you if interested.
Also, if you are interested in Enhanced Oil Recovery processes (experimental/modelling)/geomechanics/ directional drilling and drilling fluids please send me a copy of your CV with your research interest.
Pore-scale investigation of multiphase flow with applications to Enhnaced Oil Recovery:
In this study molecular dynamics and meso-scale simulation methods are used to explore the flow behaviour in pores with the range of nano- to micro-meters. This research aims in developing accurate relative permeability curves considering important parameters such as the effects of wettability, pore geometry, and interfacial tension.
Experimental and theroretical investigation of thermal EOR methods from heavy oil reservoirs:
This reserach focuses on the novel and economic thermally enhanced oil recovery processes from both sandstone and carbonate reservoirs. Improving the rate of heat transfer and sweep efficiencies through the use of solvents and other additives are being examined.
Investigation of foam stability and its applications in porous media (EOR methods):
Improving the perfomance of CO2 injection process and also steam assisted thermal EOR methods is critical for oil and gas industry. The aim of this study is to analyse/improve the stability of foam at different temperature through use of nanomaterials. The solutions of this research can potentially reduce the heat loss, and costs associated with current gas injection, or thermal rocesses for EOR methods.
Application of nano-materials in drilling fluid design for deepwater reservoirs:
This reserach aims in developing a chemically stable mud for deepwater drilling where hydrate formation is critical. Stable mud which can sustain required rheological properties for hole cleaning purposes is being investigated. Use of additives with suitable electrochemical properties are going to be examined.
EG55HI: Enhanced Oil Recovery
EG4013: MEng Individual Project
EP3595: Drilling and Well Engineering
EG551W: Well & Production Engineering
EG551R/EG502B: Field Development & Petroleum Economics
EG501Y/EG55Q1: Enhanced Oil Recovery
Workshops and Talks:
- Petroleum Engineering Capacity Development-Unconventional Reservoirs
PetroChina-Canada, Calgary September 2014
- Invited talk on Enhanced Oil Recovery Methods (EOR)
Subsea Engineering Program, Aberdeen November 2016
- Short course:An Introduction to Drilling in Heavy Oil, Oil Sands, Shale Gas Fields
EU funded capacity building project with University of Dar es Salaam (UDSM) Tanzania, Aberdeen April 2017
- Further Info
Dr Amin Sharifi
I am a lecturer in the School of Engineering at the University of Aberdeen. My primary research interests are the experimental/theoretical analysis of multiphase flow and thermal processes in porous media, and modelling unconventional reservoirs. The focus of my work is developing solutions for enhanced recovery from unconventional shale and heavy oil reservoirs through understanding and examining them from pore- to macro-scale levels.
I work closely with local and international industry from Africa, Middle East, and North America to address the current problems in oil and gas industry and explore future opportunities. Before joining the University of Aberdeen, I worked on heavy oil recovery modelling and optimisation in collaboration with Devon Energy and Petroleum Technology Research Centre where we developed an in-house simulator for CHOPS reservoirs.
Review assignments: Journal of Hydrology, Journal of Porous Media, Physica A: Statistical Mechanics and its Applications, ISH Journal of Hydraulic Engineering, Petroleum Exploration & Production Technology
PhD External Examination:
Heriot-Watt University: Relative Permeability Estimation in a CO2/Heavy Oil System, 2017
Rizky Novara (with Dr Roozbeh Rafati & Prof James Anderson)
Rizky obtained his BSc in Petroleum Engineering from ITB (Bandung Institute of Technology), Indonesia, in 2011. Then he received his MSc in Oil and Gas Engineering from the University of Aberdeen, 2014. He worked with LAPI-ITB, a foundation for research and industrial affiliation, conducting projects for oil industry in Indonesia, and as an academic assistant at the ITB before starting his PhD at the University of Aberdeen. He studies the application of nanoparticles in drilling fluids for deepwater drilling operations and in the Arctic conditions.
Ahmed received his BSc in Petroleum Engineering with a first class degree from University of Khartoum (2009) and completed his MSc in Environmental and Natural Resource Engineering at the University of Nottingham with distinction (2013). He worked as a well testing specialist in ASAWER Oil & Gas Company, and as a lecturer at the Dept of Petroleum Eng (U Khartoum) Sudan, before joining our group at the University of Aberdeen. His research focuses on the experimental investigation of foam application in enhanced oil recovery processes from unconventional reservoirs.
Joe re-joined us in April 2017. He got his MSc in Reservoir Engineering form the School of Geosciences at the University of Aberdeen in November 2016. The focus of his studies was modelling hot solvent injection into carbonate reservoirs. He previously studied Geophysics at Imperial College London where he discovered his interest in numerical modelling and developed during a research internship modelling submarine landslides and tsunamis. In his current studies, he is developing models and tools for prediction of thermal/non-thermal recovery from heavy oil reservoirs.
Prizes and Distinctions:
*Reservoir Engineering Best Report (2016) *Reservoir Engineering Best Student (2016)
Lawrence started his PhD in October 2017. He obtained a BSc in Petroleum Engineering from Kwame Nkrumah University of Science and Technology (KNUST), Ghana, in 2012.
In 2014, he acquired his master’s degree in Oil and Gas Engineering from the University of Aberdeen, UK. He worked for Schlumberger (sand control management) before re-joining to Aberdeen to work on Low Salinity Waterflooding project.
Talal rejoined the University of Aberdeen in October 2017 to pursue his PhD on the characterisation of foam flow in porous media and its application in enhanced oil recovery processes. He received his bachelor's degree from University College London in Civil and Environmental Engineering, and a master's degree from the University of Aberdeen in Petroleum Engineering.
Connor Adam Catherine Hendry Hussain Al-Momen
MEng Petroleum Engineering MEng Petroleum Engineering MEng Petroleum Engineering
MSc Reservoir Engineering, University of Aberdeen, 2016.
BSc Geophysics, Imperial College London, 2015.
Currenlty at the University of Aberdeen (PhD student).
Rafael graduated with a BSc in Petroleum Engineering from the National University of Engineering in Peru and worked over 4 years in Geoscience and Reservoir Engineering areas before joining the University of Aberdeen. He received his MSc in Petroleum Engineering from the University of Aberdeen in November 2016 and his research was focused on reservoir characterisation through well test analysis. He developed a new series of type curves for characterisation of channelised heterolithic beds.
Currently with USITEM - Chesterton (Fluid Sealing Specialist).