Dr. Mohammad Rahimi Gorji - Drug Delivery Modeling- CFD - Best Researcher Award
Ghent University - Belgium
Author Profile
🎓 Early Academic Pursuits
Dr. Mohammad Rahimi Gorji's academic journey began with a strong foundation in mechanical and automotive engineering at Iran University of Science and Technology, where he earned his BSc (2008–2012). His pursuit of higher education led him to obtain an MSc in mechanical engineering from Babol Noshirvani University of Technology (2013–2015). His deep interest in computational fluid dynamics and biomedical applications propelled him toward a PhD in Biomedical Engineering and Health Sciences at Ghent University, Belgium (2018–2022). His doctoral research specialized in drug delivery modeling using CFD simulations, an area where he made significant contributions to optimizing pressure and flow dynamics.
💼 Professional Endeavors
Dr. Rahimi Gorji has an impressive professional career that spans academic research, teaching, and industrial collaborations. He has been a Scientific Staff/Postdoctoral Research Fellow at UGent/UZ Gent since June 2022, where he has played a crucial role in experimental and computational simulations of intraperitoneal drug delivery in collaboration with Alesi Surgical Ltd (UK). His expertise extends to teaching Computational Bio-Fluid Mechanics at Ghent University, shaping the next generation of engineers and researchers. His guest research stint at the University of Leeds further broadened his experience in computational modeling and DCE-MRI simulations.
🔬 Contributions and Research Focus
Dr. Rahimi Gorji's research focus lies in drug delivery modeling, leveraging computational fluid dynamics (CFD) to enhance treatment efficacy. His PhD research at UGent involved numerical simulations to model CO2 gas filling and liquid nebulization, optimizing drug transport for intraperitoneal therapies. He developed finite element-based computational models that improved the understanding of pressure, flow, and aerosolized drug transport. His work also extends to designing innovative catheters and medical instruments, as evidenced by his patent for a double-lumen branched catheter for intraperitoneal drug delivery.
🌍 Impact and Influence
Dr. Rahimi Gorji’s contributions have had a significant impact on both academia and the medical industry. His research has influenced clinical methodologies for laparoscopic procedures, leading to improved monitoring of humidity, temperature, and pH during surgery. His CFD-based modeling of drug-tissue interactions has enhanced drug delivery efficiency, making treatments more effective. His collaborations with prestigious institutions like Leed University, VUB, ULiège, and the University of Technology Sydney reflect the global impact of his work.
🏆Academic Cites
Dr. Rahimi Gorji's research in drug delivery modeling and CFD-based biomedical simulations has been widely cited in high-impact journals and conferences. His findings have provided valuable insights into fluid-particle interactions in medical applications, influencing further studies in the field. As a member of the scientific committee for major international conferences, including AMMCS 2022 and ICETCFD-2019, he has contributed to shaping discussions on computational fluid dynamics and drug delivery systems.
🌟 Legacy and Future Contributions
Dr. Rahimi Gorji’s legacy is firmly established through his patented innovations, teaching, and cutting-edge research in drug delivery modeling. His future contributions aim to refine CFD applications in medical treatments, particularly in aerosolized drug delivery and catheter-based drug transport systems. His supervision of multiple research projects ensures that his knowledge is passed on to the next generation of researchers. By pushing the boundaries of CFD-driven drug delivery modeling, he is paving the way for more precise, effective, and minimally invasive medical treatments.
📝Drug Delivery Modeling – CFD
Dr. Mohammad Rahimi Gorji's groundbreaking work in drug delivery modeling has transformed computational approaches to aerosolized drug transport and fluid dynamics in medical applications. His expertise in CFD-based simulations for drug delivery modeling has significantly improved treatment protocols, ensuring better drug dispersion and effectiveness. With continuous advancements in drug delivery modeling, his research will continue to shape the future of biomedical engineering and health sciences.
Notable Publication
📝Consequences of variable wall permeability and magnetic field on non-isothermal flow in converging/diverging tubes
Authors: Kahshan, M., Farooq, A.A., Ghandour, R., Gorji, M.R., Khan, M.H.
Journal: Case Studies in Thermal Engineering
Year: 2023
Citations: 0
📝MHD blood flow effects of Casson fluid with Caputo-Fabrizio fractional derivatives through an inclined blood vessel with thermal radiation
Authors: Jamil, D.F., Uddin, S., Kazi, M., Gorji, M.R., Kamalrulzaman Md Akhir, M.
Journal: Heliyon
Year: 2023
Citations: 2
📝Microfluidics temperature compensation and tracking for drug injection based on mechanically pulsating heat exchanger
Authors: Sankad, G.C., Priyadarsini, G.D., El-Rahman, M.A., Gorji, M.R., Alsufi, N.A.
Journal: Journal of Thermal Analysis and Calorimetry
Year: 2023
Citations: 1
📝Highly carbonized Prunus dulcis shell-derived activated carbon for high-performance supercapacitor applications
Authors: Kandasamy, S.K., Ravindaran, R., Michalska, M., Mohamed, M.A., Jaber, M.M.
Journal: Polymer Bulletin
Year: 2023
Citations: 0
📝Development of thermodynamically assisted machine learning model to select the best fuel for the thermal power station
Authors: Dutta, A., Datta, D., Malebary, S.J., Gorji, M.R., Eldin, S.M.
Journal: Case Studies in Thermal Engineering
Year: 2023
Citations: 4
📝Lumps and interactions, fission and fusion phenomena in multi-solitons of extended Shallow Water Wave Equation of (2+1)-dimensions
Authors: Alsufi, N.A., Fatima, N., Noor, A., Gorji, M.R., Alam, M.M.
Journal: Chaos, Solitons and Fractals
Year: 2023
Citations: 5