Mohammad Rasaei | Chemical Engineering | Best Researcher Award

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Dr. Mohammad Rasaei | Chemical Engineering | Best Researcher Award

Associate Professor at University of Tehran, Iran

Dr. Mohammad Reza Rasaei is an Associate Professor at the University of Tehran’s Institute of Petroleum Engineering, specializing in reservoir management, fluid flow in porous media, reservoir simulation, and geostatistics. With a Ph.D. in Petroleum Engineering and over 90 research publications, his contributions to the field are extensive, covering both theoretical advancements and practical applications in oil and gas reservoir studies. He has played a pivotal role in large-scale petroleum projects, including Azadegan and Yadavaran Oil Field studies, collaborating with NIOC and other major industry players. As a member of the Supreme Reservoir Advisory Committee and a technical consultant for various energy firms, he bridges the gap between academia and industry. Additionally, his mentorship of over 100 MSc and multiple PhD students has significantly contributed to academic growth in petroleum engineering. While he has strong national recognition, expanding his international collaborations, patent contributions, and research citations could further elevate his global impact.

Professional Profile

Education

Dr. Mohammad Reza Rasaei holds a Ph.D. in Petroleum Engineering from the University of Tehran, which he earned in 2005. Prior to that, he completed his M.Sc. in Chemical Engineering from the same university in 2000, following his B.Sc. in Chemical Engineering in 1998. His educational background provided a strong foundation in reservoir engineering, fluid mechanics, and geostatistics, enabling him to excel in both academic research and industry-driven projects in the field of petroleum engineering.

Professional Experience

Dr. Mohammad Reza Rasaei has an extensive professional background in petroleum engineering, combining academic leadership, industry consultancy, and project management. Since 2005, he has served as an Associate Professor at the University of Tehran’s Institute of Petroleum Engineering, mentoring over 100 MSc and multiple PhD students while teaching advanced courses in reservoir simulation, geostatistics, and production engineering. Beyond academia, he plays a crucial role in industry collaborations, serving as a member of the Supreme Reservoir Advisory Committee of NIOC, where he has evaluated over 30 oil and gas field development plans. His expertise extends to leading large-scale oil field projects, such as the Azadegan and Yadavaran Oil Field research and technology studies, which are 10-year mega projects in collaboration with NIOC. Additionally, he has held key technical advisory and managerial positions in various organizations, including Hofreh-Kavan Company, Keyson Oil Gas Energy Co., and Sarvak Azar Engineering Development Co. His contributions to reservoir engineering, field development, and subsurface modeling have significantly influenced both research advancements and practical industry solutions.

Research Interest

Dr. Mohammad Reza Rasaei’s research interests lie in the advanced study of reservoir engineering, focusing on reservoir management, fluid flow in porous media, reservoir simulation, and geostatistics. His work extensively explores fractured reservoirs, integrated pore-to-field upscaling, and flow assurance, aiming to optimize oil and gas recovery processes. Through his expertise in production optimization and reservoir modeling, he contributes to the development of innovative techniques for efficient hydrocarbon extraction and enhanced reservoir performance. His research bridges theoretical advancements with practical industry applications, making significant contributions to the field of petroleum engineering.

Award and Honor

There is no specific mention of awards and honors in the provided information for Dr. Mohammad Reza Rasaei. However, his prestigious roles and contributions in petroleum engineering, including his position as a member of the Supreme Reservoir Advisory Committee of NIOC, leadership in major oil field development projects, and 90+ research publications, highlight his recognition and influence in both academia and industry. His extensive mentorship of MSc and PhD students, along with his technical consultancy for leading energy firms, further reflects his impact and professional distinction. If additional details on awards or honors are available, they would further reinforce his eligibility for prestigious research accolades.

Conclusion

Dr. Mohammad Reza Rasaei is a highly accomplished researcher with significant contributions to petroleum engineering, particularly in reservoir management, simulation, and fractured reservoir studies. His academic leadership, industry collaborations, and technical expertise make him a strong candidate for the Best Researcher Award. However, expanding his international recognition, patent portfolio, and citation impact would further strengthen his case for prestigious global research honors.

Publications Top Noted

  • Title: Uncovering the impact of morphology of porous media and capillary number on immiscible oil recovery using computational fluid dynamics
    Authors: Ghodsi, M., Rasaei, M.R.
    Year: 2025
    Citations: 1
  • Title: Machine Learning Techniques in Enhanced Oil Recovery Screening Using Semisupervised Label Propagation
    Authors: Vaziri, P., Ahmadi, S., Daneshfar, F., Alimohammadi, H., Rasaei, M.R.
    Year: 2024
    Citations: 8
  • Title: Effect of alumina and silica nanocomposite based on polyacrylamide on light and heavy oil recovery in presence of formation water using micromodel
    Authors: Maleki, A., Sedaee, B., Bahramian, A., Rasaei, M.R., Dehghan, A.
    Year: 2024
    Citations: 6
  • Title: Experimental study of hydrophilic additives on filter cake permeability and filtrate losses
    Authors: Abed, M.A., Rasaei, M.R.
    Year: 2024
    Citations: 3
  • Title: Study the effect of cohesion on fine particle transportation through a pore doublet model: A CFD-DEM study
    Authors: Ghodsi, M., Rasaei, M.R.
    Year: 2024
    Citations: 1
  • Title: Lattice Boltzmann simulation of cross-linked polymer gel injection in porous media
    Authors: Kamel Targhi, E., Emami Niri, M., Rasaei, M.R., Zitha, P.L.J.
    Year: 2024
    Citations: 0
  • Title: Formulating a novel drilling mud using bio-polymers, nanoparticles, and SDS and investigating its rheological behavior, interfacial tension, and formation damage
    Authors: Taghdimi, R., Kaffashi, B., Rasaei, M.R., Dabiri, M.-S., Hemmati-Sarapardeh, A.
    Year: 2023
    Citations: 6
  • Title: Multi-objective optimization of WAG injection using machine learning and data-driven Proxy models
    Authors: Bocoum, A.O., Rasaei, M.R.
    Year: 2023
    Citations: 6
  • Title: Calculating porosity and permeability from synthetic micro-CT scan images based on a hybrid artificial intelligence
    Authors: Mohyeddini, A., Rasaei, M.R.
    Year: 2023
    Citations: 1
  • Title: Pore-network modelling of combined molecular diffusion and gravity drainage mechanisms in a porous matrix block: The competitive role of driving forces
    Authors: Mohammadi, A., Rasaei, M.R., Mashayekhizadeh, V., Nakhaee, A.
    Year: 2023
    Citations: 0

Haojie Li | Chemical Process | Best Researcher Award

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Assoc. Prof. Dr.Haojie Li | Chemical Process | Best Researcher Award 

Associate Professor at Shihezi University, China

Haojie Li is an Associate Professor at Shihezi University, specializing in Chemical Engineering with a focus on multiphase process intensification, carbon capture, heat transfer, and mass transfer. Over the course of his career, Li has made significant contributions to energy, chemical industries, and environmental research, leading several projects in these areas. His expertise is evident in the development of novel technologies for CO2 capture, heat exchangers, and thermosyphon systems. Li has published 15 high-level papers and holds multiple patents, with numerous national and international collaborations. His work has earned him prestigious awards, such as first prizes for teaching and research achievements, reflecting his prominence in the academic and professional chemical engineering community.

Professional Profile

Education

Haojie Li completed his Bachelor’s degree in Chemical Engineering at Shandong University of Technology in 2014. He further pursued a Doctorate in Chemical Engineering at Tianjin University, graduating in 2022. Throughout his education, Li focused on advanced chemical process technologies, gaining deep expertise in process intensification, heat and mass transfer, and computational fluid dynamics. His doctoral research was aimed at enhancing energy efficiency and environmental sustainability through innovative engineering solutions. Li’s educational background laid a strong foundation for his career, combining both theoretical knowledge and practical application. His studies provided him with the skills to tackle complex industrial problems and laid the groundwork for his subsequent achievements in both academia and industry.

Experience

Haojie Li’s academic career began in 2022 at Shihezi University, where he was appointed as a Lecturer in the School of Chemistry and Chemical Engineering. In 2023, he was promoted to Associate Professor. Li is also a master’s tutor and the leader of the Innovation Team for Chemical Process Intensification. He has presided over more than 10 research projects at national, provincial, and university levels. Li’s research has been instrumental in advancing chemical process technologies, particularly in energy and environmental sectors. Before his tenure at Shihezi University, he conducted pioneering research during his doctoral studies at Tianjin University, where he developed novel heat transfer and CO2 capture technologies. Throughout his career, Li has maintained close collaborations with various scientific and industrial communities, furthering his influence in the chemical engineering field. His experience spans both fundamental research and applied technology development, demonstrating his expertise and leadership.

Research Focus

Haojie Li’s research focuses on the development and application of chemical process intensification technologies, particularly in energy, chemical industries, and environmental protection. His expertise includes multiphase flow, CO2 capture, heat transfer, and mass transfer, with a particular emphasis on improving energy efficiency and reducing environmental impacts. Li’s work in carbon capture, utilization, and storage (CCUS) aims to address global challenges related to climate change and energy consumption. His research also includes the design of advanced heat exchangers and thermosyphons to optimize energy use and enhance thermal performance. Li is also dedicated to computational fluid dynamics (CFD), which he uses to simulate and improve the efficiency of chemical processes. His contributions provide solutions to both fundamental scientific questions and practical industrial applications. Overall, his research holds significant promise for driving forward sustainable chemical technologies and improving the efficiency of energy-intensive industries.

Awards and Honors

Haojie Li has received numerous accolades for his research contributions and teaching excellence. He was recognized as one of the “Tianchi Talents – Young Doctor” of Xinjiang and awarded high-level talent status by Shihezi City. In addition, he has been honored with multiple prestigious awards, including two first prizes for Teaching and Research Achievement Awards from the Ministry of Education, which highlight his exceptional contributions to academia and the chemical engineering field. Li has also won a second prize for Basic Research Achievement from the Chemical Engineering Society of China, underscoring the impact of his work. These awards reflect his outstanding research performance, leadership in scientific innovation, and commitment to education. Li’s ability to balance research with academic development has solidified his reputation as a leading figure in his field, ensuring his place among the most promising young researchers in China.

Conclusion

Haojie Li is undoubtedly a highly deserving candidate for the Best Researcher Award. His pioneering research, leadership in the chemical engineering community, and significant contributions to energy and environmental technologies make him a standout researcher. While there are opportunities for growth in terms of broader collaborations and public outreach, his academic and professional achievements provide a strong foundation for recognition. Li’s work not only pushes the boundaries of chemical engineering but also holds the potential for transformative societal and industrial applications, making him an ideal candidate for this prestigious award.

Publications Top Noted

Constructing CO2 capture nanotraps via tentacle-like covalent organic frameworks towards efficient CO2 separation in mixed matrix membrane”

Authors: Liang, C., Li, K., Chen, T., Li, H., Li, X.

Citations: 0

Year: 2025

“Customized Heteronuclear Dual Single-Atom and Cluster Assemblies via D-Band Orchestration for Oxygen Reduction Reaction”

Authors: Li, J., Jiang, B., Yang, L., Zhang, L., Chen, Z.

Citations: 0

Year: 2024

“The structure-effect relationship between inline high shear mixers and micromixing: Experiment and CFD simulation”

Authors: Guo, J., Liu, Y., Shan, G., Wu, J., Zhang, J.

Citations: 8

Year: 2023

“Surface reconstruction enables outstanding performance of Fe2O3/Ni(OH)2 nanosheet arrays for ultrahigh current density oxygen evolution reaction”

Authors: Kong, A., Zhang, H., Sun, Y., Li, W., Zhang, J.

Citations: 11

Year: 2023

“Effects of stator and rotor geometry on inline high shear mixers: Residence time distribution, flow, and energy consumption”

Authors: Guo, J., Liu, Y., Zhao, S., Wu, J., Zhang, J.

Citations: 7

Year: 2023

“Effect of inclination angle on the thermal performance of a three-phase closed thermosyphon containing SiC particles”

Authors: Jiang, F., Lin, Y., Liu, Y., Ma, Y., Li, X.

Citations: 5

Year: 2022

“Investigation of thermohydraulic characteristics of a novel triple concentric pipe minichannel heat exchanger”

Authors: Li, H., Wang, Y., Li, W., Zhang, M., Jiang, F.

Citations: 1

Year: 2022

“A comprehensive review of heat transfer enhancement and flow characteristics in the concentric pipe heat exchanger”

Authors: Li, H., Wang, Y., Han, Y., Zhang, M., Jiang, F.

Citations: 33

Year: 2022

“Investigation and estimation on deagglomeration of nanoparticle clusters in teethed in-line high shear mixers”

Authors: Liu, Y., Guo, J., Zhao, S., Zhou, M., Zhang, J.

Citations: 15

Year: 2021

“Investigation of the heat transfer characteristics of a novel thermosyphon with different particle sizes”

Authors: Li, H., Jiang, F., Qi, G., Li, X.

Citations: 4

Year: 2021