Dr. Saber Mohammadi | Petroleum Engineering | Best Researcher Award
Dr. Saber Mohammadi, Research Institute of Petroleum Industry (RIPI), Iran
Dr. Saber Mohammadi is a seasoned petroleum engineer with a Ph.D. in Petroleum Engineering-Hydrocarbon Reservoirs from Amirkabir University of Technology, Tehran. š His expertise spans well stimulation techniques, PVT, and phase behavior of reservoir fluids, with a focus on asphaltene/wax precipitation at high pressure-temperature conditions. š¢ļø As the Head of Reservoir Productivity & Production Technologies Research Group at RIPI, Tehran, he manages projects optimizing acidizing operations in oil fields. š With a rich educational background and diverse experiences, Dr. Mohammadi contributes significantly to the petroleum industry, balancing research, consulting, and teaching roles. š
Publication Profile:
Education:
Dr. Saber Mohammadi, an accomplished petroleum engineer, holds a Ph.D. in Petroleum Engineering-Hydrocarbon Reservoirs from Amirkabir University of Technology. His dissertation, “Kinetics of Asphaltene Aggregation Process at Reservoir Conditions,” combined experimental and modeling approaches under the guidance of Prof. F. Rashidi, Dr. S. A. Mousavi-Dehghani, and Dr. M. H. Ghazanfari. š With a remarkable GPA of 19.12/20, he continued his academic journey with an M.Sc. in Chemical Engineering-Hydrocarbon Reservoirs from Sharif University of Technology and a B.Sc. in Petroleum-Reservoir Engineering from Petroleum University of Technology. š Dr. Mohammadi’s educational foundation also includes a Math-Physics Diploma from Imam Khomeini High School, Kermanshah, showcasing his excellence with a GPA of 18.99/20. š«āØ
Industrial & Working Experiences :
Dr. Saber Mohammadi, a distinguished petroleum engineer, leads as the Head of Reservoir Productivity & Production Technologies Research Group at the Research Institute of Petroleum Industry (RIPI) in Tehran, Iran. š His extensive experience includes roles as a Chemical & Petroleum Engineering Technical Consultant at Mana Holding and Project Manager for various RIPI projects from 2017 to the present. Notable achievements involve optimizing acidizing operations, studying IOR/EOR scenarios, and managing PVT projects. š¢ļø Dr. Mohammadi’s impactful research extends to roles as a Research Assistant at RIPI and Tehran Petroleum Research Center, focusing on diverse topics such as fluid phase behavior, asphaltene precipitation, and experimental studies of EOR techniques. šāØ
Teaching Experiences:
Dr. Saber Mohammadi’s commitment to education is evident through his roles as a Teaching Assistant in prestigious institutions. š At Amirkabir University of Technology, Tehran, he assisted in the “Formation of Solid Hydrocarbons” M.Sc. course during the falls and springs of 2015. His expertise also extended to “Reservoir Engineering II” under the guidance of Dr. M. Masihi in both fall 2012 and as a Teaching Assistant at Sharif University of Technology in fall 2009 and summer 2010. Dr. Mohammadi’s contributions to shaping the next generation of engineers highlight his dedication to knowledge dissemination in the field of petroleum engineering. šš
Training Experiences & Certificates:
Dr. Saber Mohammadi’s pursuit of knowledge extends beyond academia, evident in his diverse training experiences and certifications. š He participated in courses such as “Corrosion Management in Oil and Gas Upstream” and “Heavy Organic Depositions in Petroleum Production” by esteemed professionals like Prof. Parvizi and Prof. G. A. Mansoori. š Additionally, he delved into seismic exploration with the Petrel Seismic Course and honed his skills in reservoir simulation through the Eclipse-100 and Eclipse-300 courses. š» His commitment to environmental responsibility is evident in certifications like “Production of CO2 Emissions by Capture and Storage.” Dr. Mohammadi’s continuous learning reflects his dedication to staying at the forefront of the ever-evolving petroleum industry. š¢ļøš
Research Focus:
Dr. Saber Mohammadi, a prolific researcher, primarily focuses on the intricate dynamics of reservoir fluids and enhanced oil recovery (EOR) strategies. š¢ļø His research explores various aspects such as asphaltene aggregation kinetics, wettability alteration using nanoparticles, and the application of nanomaterials to inhibit asphaltene precipitation. š§Ŗ Dr. Mohammadi’s work also delves into the development of smart water-based foam for EOR applications and the use of carbon nanoparticles to control asphaltene and wax formation in crude oil. His commitment to understanding the complexities of fluid behavior and innovative EOR techniques reflects in his diverse and impactful research portfolio. šš
Publication Top Notes:
- Monitoring wettability alteration by silica nanoparticles during water flooding to heavy oils in five-spot systems: A pore-level investigation
- Cited by: 255 š
- Year: 2012 š
- On the control of glass micro-model characteristics developed by laser technology
- Cited by: 49 š
- Year: 2013 š
- On the effect of temperature on precipitation and aggregation of asphaltenes in light live oils
- Cited by: 47 š
- Year: 2016 š
- A comprehensive review on critical affecting parameters on foam stability and recent advancements for foam-based EOR scenario
- Cited by: 38 š
- Year: 2021 š
- Characterizing the role of shale geometry and connate water saturation on performance of polymer flooding in heavy oil reservoirs: Experimental observations and numericalĀ ā¦
- Cited by: 35 š
- Year: 2012 š
- Kinetics of asphaltene aggregation phenomena in live oils
- Cited by: 31 š
- Year: 2016 š
- Modeling of asphaltene aggregation phenomena in live oil systems at high pressure-high temperature
- Cited by: 26 š
- Year: 2016 š
- Reversibility of asphaltene aggregation in live oils: qualitative and quantitative evaluation
- Cited by: 24 š
- Year: 2015 š
- A pore-level screening study on miscible/immiscible displacements in heterogeneous models
- Cited by: 24 š
- Year: 2013 š
- Potential Application of Fe2O3Ā and Functionalized SiO2Ā Nanoparticles for Inhibiting Asphaltene Precipitation in Live Oil at Reservoir Conditions
- Cited by: 21 š
- Year: 2021 š