Mr Farad Kamyabi
Higher Degree by Research Candidate
School of Chemical Engineering
College of Engineering and Information Technology
Carbon Capture and Storage (CCS): My research primarily focuses on analytical modeling of CO2 storage, with a focus on how physical phenomena like chemical reaction, salt precipitation, and fines migration affect storage efficiency. I am also interested in integrating mathematical modeling with experimental data to better understand transport and reaction phenomena.
| Year | Citation |
|---|---|
| 2026 | Kamyabi, F., Rehman, S. U., & Bedrikovetsky, P. (2026). Analytical Model for CO2 Storage with Fines Migration, Salt Precipitation and Partial Miscibility. Gas Science and Engineering, 149, 205883. |
| 2024 | Kamyabi, F., & Mammad-Zade, A. (2024). Empirical study of magnetohydrodynamic effect on fluid flow in clayey porous media. Petroleum Research, 9(3), 462-471. |
| 2021 | Araz, A., & Kamyabi, F. (2021). Experimental study of combined low salinity and surfactant flooding effect on oil recovery. Oil and Gas Science and Technology, 76, 9 pages. Scopus9 WoS6 |
| Year | Citation |
|---|---|
| 2015 | Eyyubbayli, T., Asheim, H. A., & Kamyabi, F. (2015). Development of Bio-Oil emulsion to allow realistic testing of oil spill control equipment. In SPE Latin American and Caribbean Health Safety Environment and Sustainability Conference 2015 (pp. 170-180). SPE. DOI |
Teaching Assistant in:
Semester 1, 2026:
ENGP1008 - Formation Damage & Productivity Enhancement
ENGP5003 - Reservoir Simulation
Semester 2, 2025:
PETROENG3001 / PETROENG7035 - Reservoir Simulation
PETROENG2001 - Reservoir Thermodynamics & Fluid Properties
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