mehdi Nassabeh
Phd candidate (Engineering; Chemical engineering; Carbon capture engineering (excl. sequestration))
Australia
Highly skilled Petroleum Engineer and PhD candidate specializing in Enhanced Oil Recovery (EOR) techniques, including flue gas utilization, carbon capture and storage (CCS), and underground hydrogen storage (UHS). With 8 years of industry experience, I am proficient in reservoir simulation and modeling, particularly in the context of CO2 sequestration and EOR processes.
Technical Skills:
Reservoir Simulation: Eclipse, FLOGRID
Reservoir Fluids Modeling: PVTI, PVTSIM
Production Software: PIPESIM
Machine Learning: Advanced proficiency in machine learning techniques.
Research Interests:
EOR
Flue Gas Injection
UHS
CCUS
EOR-CCS
CO2 Sequestration
Dedicated to advancing the field through innovative research and application of cutting-edge technologies. I am analytical, detail-oriented, and experienced in conducting research on advanced oil and gas recovery techniques, including EOR processes, CO2 and H2 underground storage, as well as the application of machine learning for optimizing production systems.
Publications
- Hybrid EOR with Flue Gas-Water-Alternating-Gas (WAG) Injection: A comprehensive Exploring the Synergistic Impact of water salinity Incorporating Flue Gas for Optimal EOR Performance
- Evaluating flue gas geo-sequestration and EOR in fractured reservoirs through simulated synergistic reservoir characteristics and injection kinetics
- Advancements, challenges, and perspectives of flue gas injection in subsurface formations: a comprehensive review
- Sub-surface geospatial intelligence in carbon capture, utilization and storage: A machine learning approach for offshore storage site selection
- Advancements, Challenges, and Perspectives of Flue Gas Injection in Subsurface Formations: A Comprehensive Review
- Thermal stability evaluation through the comparison of potassium chloride to potassium/sodium formate fluids
- On the application of different surfactant types to measure the carbonate’s adsorption density: a parametric study
- Implications of hot chemical–thermal enhanced oil recovery technique after water flooding in shale reservoirs
- A laboratory approach on the improvement of oil recovery and carbon dioxide storage capacity improvement by cyclic carbon dioxide injection
- Simulation of low and high salinity water injection method to determine the optimum salinity
- Experimental investigation of permeability heterogeneity impact on the miscible alternative injection of formation Brine–Carbon dioxide
- Optimization of Drilling Parameters by Analysis of Formation Strength Properties with Utilization of Mechanical Specific Energy
- Implications of hot chemical–thermal enhanced oil recovery technique after water flooding in shale reservoirs
- Hybrid EOR Performance Optimization through Flue Gas-Water Alternating Gas (WAG) Injection: Investigating the Synergistic Effects of Water Salinity and Flue Gas Incorporation
- A laboratory approach on the improvement of oil recovery and carbon dioxide storage capacity improvement by cyclic carbon dioxide injection
- Experimental investigation of permeability heterogeneity impact on the miscible alternative injection of formation Brine–Carbon dioxide
- Simulation of low and high salinity water injection method to determine the optimum salinity
- An Overview of Wettability Measurements in Fractured Carbonated Reservoir and Investigate the Effects of Wettability Changes in the Optimization of Enhanced Oil Recovery Techniques
- Field application of adding formate salts exertion on the water based drilling fluid properties enhancement: an experimental comparative analysis
- Assessment of Mechanical Specific Energy Aimed at Improving Drilling Inefficiencies and Minimize Wellbore Instability
- Evaluation of Thermal Stability by Comparison of Potassium Chloride and Potassium/Sodium Formate Fluids
- Data-driven strategy for contact angle prediction in underground hydrogen storage using machine learning