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Dr. Yarranton is pursuing fundamental research in support of the development and operation of solvent-based processes for the recovery of in-situ heavy oil and mineable oil sands. These processes have the potential to increase recovery while reducing water usage and decreasing energy consumption. The development and optimization of these processes is hindered by the current inability to accurately predict the phase behaviour and properties of mixtures of heavy oil and solvent over the wide range of conditions that may be encountered in a process.
Dr. Yarranton’s research targets this knowledge gap and includes the development of oil characterization methodologies, property correlations (such as density, viscosity, and diffusivity), and phase behaviour models required to predict fluid behaviour when different solvents are added to heavy oil. The models and correlations are supported by an extensive experimental program. It is expected that the knowledge gained will improve the simulation of heavy oil in situ and surface processes.
The Asphaltene & Emulsion Research (AER) group is renowned for their experimental contributions and practical correlations for heavy oil properties as well as their contributions to fundamental understanding of asphaltenes and asphaltene stabilized water-in-oil emulsions.
Dr. Yarranton’s research targets this knowledge gap and includes the development of oil characterization methodologies, property correlations (such as density, viscosity, and diffusivity), and phase behaviour models required to predict fluid behaviour when different solvents are added to heavy oil. The models and correlations are supported by an extensive experimental program. It is expected that the knowledge gained will improve the simulation of heavy oil in situ and surface processes.
The Asphaltene & Emulsion Research (AER) group is renowned for their experimental contributions and practical correlations for heavy oil properties as well as their contributions to fundamental understanding of asphaltenes and asphaltene stabilized water-in-oil emulsions.
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CANADIAN JOURNAL OF CHEMICAL ENGINEERINGno. 5 (2024): 1750-1763
ENERGY & FUELSno. 23 (2023): 18684-18697
Chemical Engineering Science (2023): 119065-119065
ENERGY & FUELSno. 2 (2023): 995-1009
ENERGY & FUELSno. 16 (2022): 8809-8817
ENERGY & FUELSno. 23 (2022): 14113-14127
ENERGY & FUELSno. 24 (2022): 14926-14942
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