Education
Majid Esmaeili pursued his education in chemical engineering, beginning with a Bachelor of Science at Sahand University of Technology, where he focused on evaluating heavy oil viscosity for his thesis. He then moved on to complete a Master of Science at Razi University, specializing in the preparation and characterization of asymmetric and composite membranes for oxygen separation at low pressures. His academic journey culminated in a Ph.D. from the University of Razi, where he researched facilitated transport membranes for ethylene-ethane separation. Under the guidance of Professor Seyed Siavash Madaeni, his studies equipped him with a deep understanding of membrane technology, emphasizing its applications in industrial processes.
Research Focus
Majid Esmaeili’s research interests are centered on advancing membrane technology across various industrial applications. His work predominantly focuses on membrane manufacturing for the oil and gas industries, where he designs and optimizes membrane separation processes. His expertise extends to hydrocarbon recovery, air separation, ultrafiltration for wastewater treatment, and the recovery and reuse of flue gases. This broad scope reflects his commitment to enhancing efficiency and sustainability in industrial operations through innovative membrane solutions.
Professional Journey
Throughout his career, Majid Esmaeili has held pivotal roles in research and industrial settings, showcasing a robust professional journey. Currently, as a full-time researcher at the Research Institute of Petroleum Industry (RIPI), he leads initiatives in membrane technology development. His consultancy roles with Pala Farayend Rastin and Atieh Sanaat Sharif involve engineering design, further contributing to his versatile expertise. Past experiences at the National Petrochemical Company (NPC-RT) and Iranian Offshore Oil Company (IOOC) provided him with hands-on experience in membrane production and process optimization, highlighting his practical contributions to the field.
Honors & Awards
Majid Esmaeili’s contributions to membrane technology and industrial research have earned him notable recognition throughout his career. His designation as the Top Researcher at RIPI in 2022 underscores his significant impact in advancing membrane technology. Additionally, his role as an Effective Project Manager for the design of a coke production plant at BORC in 2021 exemplifies his leadership and project management skills. His authored book on Membrane Fouling and Regeneration Methods being lauded as a Praiseworthy Book at the Oil Book Ceremony further underscores his scholarly contributions and industry relevance.
Publications Noted & Contributions
Majid Esmaeili has made substantial contributions to the field through his publications and research projects. His work includes numerous peer-reviewed articles focusing on membrane technology and gas separation processes. These publications not only contribute to the academic discourse but also inform industry practices, driving advancements in membrane technology applications across diverse sectors.
- “Fouling reduction and retention increment of polyethersulfone nanofiltration membranes embedded by amine-functionalized multi-walled carbon nanotubes”
- Published in the Journal of Membrane Science, this study explores the enhancement of polyethersulfone nanofiltration membranes using amine-functionalized multi-walled carbon nanotubes to reduce fouling and increase retention properties.
- “Development of a novel high flux and fouling-resistant thin film composite nanofiltration membrane by embedding reduced graphene oxide/TiO2”
- Featured in Separation and Purification Technology, this research introduces a high-flux, fouling-resistant thin film composite nanofiltration membrane incorporating reduced graphene oxide/TiO2, highlighting advancements in membrane design.
- “Selective transport of mercury as HgCl42− through a bulk liquid membrane using K+-dicyclohexyl-18-crown-6 as carrier”
- Published in Separation and Purification Technology, this study investigates the selective transport of mercury ions through a bulk liquid membrane, showcasing applications of K+-dicyclohexyl-18-crown-6 as a carrier.
- “Box-Behnken design as a systematic approach to inspect correlation between synthesis conditions and desalination performance of TFC RO membranes”
- In Desalination, this research employs Box-Behnken design to systematically analyze the synthesis conditions and desalination performance of thin film composite reverse osmosis membranes, contributing to optimization strategies in membrane manufacturing.
- “Synergistic effect of carboxylated-MWCNTs on the performance of acrylic acid UV-grafted polyamide nanofiltration membranes”
- Published in Reactive and Functional Polymers, this study explores the synergistic enhancement of polyamide nanofiltration membranes through the incorporation of carboxylated multi-walled carbon nanotubes, focusing on improved performance via UV-grafting with acrylic acid.
Research Timeline
Majid Esmaeili’s research journey spans from his undergraduate studies to his current role at RIPI, illustrating a continuous dedication to advancing membrane technology. His timeline reflects a progression from foundational academic research to impactful industrial applications, underscoring his commitment to innovation and excellence in the field of membrane technology.