Saeed Shahrokhian | Energy | Best Researcher Award

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Prof Dr. Saeed Shahrokhian | Energy | Best Researcher Award

Academic Staff, Sharif University of Technology, Iran

Dr. Saeed Shahrokhian is a highly accomplished professor in the Department of Chemistry at Sharif University of Technology (SUT), Tehran, Iran. With a distinguished academic background including a Ph.D. from Isfahan University, he has been a key figure at SUT since 2000, progressing from Assistant to Full Professor. His research focuses on the design and application of chemically modified electrodes, nanostructured materials, electrochemical energy storage devices, and biosensors for cancer biomarker detection. Dr. Shahrokhian has received numerous accolades, including the Superior Educational Master and Distinguished Researcher awards from SUT, as well as recognition from Iran’s Ministry of Science. His research excellence is reflected in his impressive H-index of 62 and inclusion among the top 1% of highly cited international scientists. With a vast body of published work and ongoing contributions to cutting-edge electrochemical research, Dr. Shahrokhian stands out as a strong candidate for the Research for Best Researcher Award.

Profile

Education

Dr. Saeed Shahrokhian has an impressive educational background that has greatly shaped his career in chemistry. He earned his B.Sc. in Chemistry from Isfahan University in 1990, followed by his M.Sc. from the same institution in 1994. Dr. Shahrokhian completed his Ph.D. at Isfahan University in 1999, where his research laid the foundation for his future contributions to analytical chemistry. His academic journey was marked by rigorous study and a focus on developing innovative approaches to chemical sensors and electrochemical energy conversion. His deep understanding of chemistry, combined with his commitment to research excellence, has contributed significantly to his esteemed career as a professor at Sharif University of Technology. This robust academic background provided Dr. Shahrokhian with the tools and knowledge to become a leading expert in his field, contributing to advancements in nanostructured materials, biosensors, and electrochemical systems.

Professional Experience

Dr. Saeed Shahrokhian is a Full Professor in the Department of Chemistry at Sharif University of Technology, where he has held positions since 2000. His professional journey began as an Assistant Professor from 2000 to 2004, followed by an Associate Professor role until 2008. Since June 2008, he has served as a Full Professor, reflecting his sustained excellence in academic research and teaching. Dr. Shahrokhian’s expertise spans electrochemistry, with a focus on the design, construction, and application of chemically modified electrodes, nano-structured materials, and electrochemical energy conversion devices. He has made significant contributions to capacitive deionization and the development of electrochemical biosensors for cancer biomarkers and pathogenic bacteria. His work is recognized globally, as evidenced by his numerous awards, including being named a highly cited researcher by ISI and Scopus. His professional experience highlights his leadership in advancing scientific knowledge and innovation in the field of chemistry.

Research Interests

Dr. Saeed Shahrokhian’s research interests lie at the intersection of electrochemistry, materials science, and biosensors. His work primarily focuses on the design, construction, and application of chemically modified electrodes (CMEs), with an emphasis on leveraging nano-structured materials to enhance electrode performance. He is particularly interested in electrochemical energy conversion and storage devices, capacitive deionization, and the development of aptamer-based electrochemical biosensors for detecting cancer biomarkers and pathogenic bacteria. Additionally, Dr. Shahrokhian explores the application of nanocomposite materials for surface modification of electrodes, especially in electrocatalytic water splitting, and carrier-based potentiometric ion sensors. His research contributes significantly to the advancement of analytical techniques, fostering innovations that have broad implications in environmental monitoring, healthcare, and energy storage systems. Dr. Shahrokhian’s diverse research portfolio reflects his commitment to addressing both fundamental scientific questions and practical challenges through interdisciplinary approaches.

Research Skills

Dr. Saeed Shahrokhian, a highly accomplished researcher at the Department of Chemistry, Sharif University of Technology, exhibits exceptional research skills in the realm of electrochemical sciences. His expertise lies in the design and development of chemically modified electrodes (CMEs), with a focus on applying nanostructured materials to enhance electrochemical energy conversion and storage devices. His proficiency in capacitive deionization, coupled with his innovative work in aptamer-based electrochemical biosensors for cancer biomarkers and pathogenic bacteria detection, showcases his interdisciplinary approach. Additionally, Dr. Shahrokhian’s skill in the development of nanocomposite materials for surface modification of electrodes in electrocatalytic water splitting further highlights his contributions to sustainable energy solutions. His extensive knowledge in potentiometric ion sensors and his ability to integrate cutting-edge technologies into practical applications reinforce his status as a leading researcher. These advanced research skills make him a strong candidate for the Research for Best Researcher Award.

Awards and Honors

Dr. Saeed Shahrokhian, a highly accomplished researcher from the Department of Chemistry at Sharif University of Technology, has earned numerous prestigious awards and honors throughout his career. He has been recognized as the Distinguished Researcher of the Chemistry Department multiple times, including in 2004, 2008, 2014, and 2020. In addition, Dr. Shahrokhian was named Superior Educational Master for various academic years, such as 2003-2004, 2010-2011, and 2014-2015. His significant contributions to science have also been acknowledged at the national level, as he was named Distinguished Researcher in Basic Science by the Ministry of Science, Research, and Technology in 2012. Notably, he is a 1% Highly Cited International Scientist (ISI Web of Knowledge, 2012-2024) and a 2% Highly Cited Scientist (Scopus, 2021-2024). His extensive research and influence in the field have led him to be a Highly Cited Researcher at Sharif University in both 2017 and 2022.

Shahram Khalilarya | Energy Conversion | Best Researcher Award

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Prof Dr. Shahram Khalilarya | Energy Conversion | Best Researcher Award

Academic Staff at Urmia University, Iran

Dr. Shahram Khalilarya, a distinguished Professor of Mechanical Engineering at Urmia University, has made significant contributions to the field of mechanical engineering, particularly in thermodynamics, internal combustion engines, and renewable energies. With a robust academic background, including a Ph.D. from Bath University, he has authored over 120 journal papers and 80 conference papers. His research interests encompass a wide range of topics such as biomass gasification, energy and fuels, solid oxide fuel cells, and hydrogen production. Dr. Khalilarya is noted for his use of advanced methodologies like CFD simulation, multi-objective optimization, and exergoeconomic analysis, reflecting his commitment to innovative and practical solutions. His extensive and impactful research, recognized globally through various academic platforms, positions him as a leading figure in his field. Enhancing interdisciplinary collaboration and industry engagement could further extend the real-world applicability of his work.

Profile

Education

Dr. Shahram Khalilarya’s educational background reflects a strong foundation in mechanical engineering. He earned his Bachelor of Science (B.Sc.) and Master of Science (M.Sc.) degrees in Mechanical Engineering from Tabriz University, Iran, in 1991. His academic journey continued with a focus on internal combustion engines, culminating in a Doctor of Philosophy (Ph.D.) degree from Bath University, United Kingdom, in March 2002. This advanced education equipped him with a comprehensive understanding of thermodynamic analysis, combustion processes, and energy systems, laying the groundwork for his subsequent research and academic career. Dr. Khalilarya’s doctoral studies, conducted at a prestigious institution known for its engineering excellence, allowed him to delve into complex topics such as renewable energies and multi-objective optimization, which have significantly influenced his research trajectory and contributions to the field of mechanical engineering.

Professional Experience

Dr. Shahram Khalilarya has a distinguished career in mechanical engineering, beginning with his academic appointment at Urmia University in Iran, where he has been a dedicated member of the Mechanical Engineering Department since 1991. He earned his B.Sc. and M.Sc. degrees in mechanical engineering from Tabriz University, followed by a Ph.D. in Mechanical Engineering with a focus on Internal Combustion Engines from Bath University, UK, in 2002. His professional expertise spans a wide range of research interests including thermodynamics, renewable energies, and combustion technologies. Dr. Khalilarya has made significant contributions to the field through his extensive research, which includes over 120 journal papers and 80 conference papers. His roles in various research projects and his involvement in advanced methodologies like CFD simulation and multi-objective optimization underscore his commitment to pushing the boundaries of mechanical engineering and energy systems.

Research Interest

Dr. Shahram Khalilarya’s research interests encompass a wide array of topics within mechanical engineering, with a particular focus on thermodynamics and internal combustion engines. His work involves advanced modeling and simulation of combustion processes, aiming to enhance the efficiency and performance of energy systems. Dr. Khalilarya is deeply engaged in the study of renewable energies, including biomass gasification and hydrogen production, reflecting his commitment to sustainable and innovative energy solutions. His expertise extends to solid oxide fuel cells and the organic Rankine cycle, where he applies his knowledge to optimize energy conversion and storage technologies. Additionally, his research includes exergoeconomic analysis and multi-objective optimization, emphasizing the economic and environmental aspects of energy systems. Dr. Khalilarya’s use of CFD simulation further supports his exploration of complex thermodynamic phenomena, making significant contributions to both theoretical and practical advancements in energy and combustion technologies.

Research Skills

Dr. Shahram Khalilarya possesses exceptional research skills that underscore his expertise in mechanical engineering. His proficiency in thermodynamic analysis and internal combustion engines modeling reflects a deep understanding of complex systems and their optimization. Dr. Khalilarya is adept at employing advanced methodologies such as CFD simulation and multi-objective optimization, which enable him to tackle intricate problems and refine energy systems. His work in renewable energies, biomass gasification, and solid oxide fuel cells demonstrates his ability to integrate innovative solutions with practical applications. Additionally, his expertise in exergoeconomic analysis and hydrogen production showcases his capability to evaluate the economic and environmental aspects of energy technologies. Dr. Khalilarya’s research is characterized by a rigorous approach to experimentation and analysis, as evidenced by his extensive publication record and contributions to the field. His skill set not only advances theoretical knowledge but also addresses real-world challenges in energy and combustion engineering.

Award and Recognition

Dr. Shahram Khalilarya has garnered significant recognition for his outstanding contributions to mechanical engineering and energy research. His extensive body of work, including over 120 journal papers and 80 conference papers, underscores his leadership in advancing thermodynamic analysis, internal combustion engine modeling, and renewable energy technologies. Dr. Khalilarya’s research achievements have earned him a prominent place in global academic databases, such as Web of Science and Scopus, reflecting his influence and impact in the field. His innovative approaches to combustion, biomass gasification, and energy systems have been widely acknowledged, showcasing his role as a leading expert in his domain. Additionally, his expertise in multi-objective optimization and CFD simulation further highlights his commitment to pushing the boundaries of mechanical engineering. Dr. Khalilarya’s work continues to shape the future of energy research, earning him well-deserved recognition and respect within the scientific community.

Conclusion

Dr. Shahram Khalilarya’s impressive body of work and his innovative research methodologies make him a strong candidate for the Best Researcher Award. His contributions to mechanical engineering, particularly in energy systems and combustion technologies, are substantial and impactful. Addressing areas for improvement, such as enhancing interdisciplinary collaborations and industry engagement, could further amplify his research impact and drive future advancements in the field.

Publication Top Notes

  • Energy and exergy assessments of a novel trigeneration system based on a solid oxide fuel cell
    • Authors: Ranjbar, F., Chitsaz, A., Mahmoudi, S.M.S., Khalilarya, S., Rosen, M.A.
    • Journal: Energy Conversion and Management
    • Year: 2014
    • Volume: 87
    • Pages: 318-327
    • Citations: 243
  • Exergy and exergoeconomic evaluation of hydrogen and distilled water production via combination of PEM electrolyzer, RO desalination unit and geothermal driven dual fluid ORC
    • Authors: Kianfard, H., Khalilarya, S., Jafarmadar, S.
    • Journal: Energy Conversion and Management
    • Year: 2018
    • Volume: 177
    • Pages: 339-349
    • Citations: 198
  • Thermodynamic analysis of a novel combined cooling, heating and power system driven by solar energy
    • Authors: Eisavi, B., Khalilarya, S., Chitsaz, A., Rosen, M.A.
    • Journal: Applied Thermal Engineering
    • Year: 2018
    • Volume: 129
    • Pages: 1219-1229
    • Citations: 110
  • Multi-objective optimization using response surface methodology and exergy analysis of a novel integrated biomass gasification, solid oxide fuel cell and high-temperature …
    • Authors: Mojaver, P., Khalilarya, S., Chitsaz, A.
    • Journal: Applied Thermal Engineering
    • Year: 2019
    • Volume: 156
    • Pages: 627-639
    • Citations: 97
  • A complete energetic and exergetic analysis of a solar powered trigeneration system with two novel organic Rankine cycle (ORC) configurations
    • Authors: Jafary, S., Khalilarya, S., Shawabkeh, A., Wae-hayee, M., Hashemian, M.
    • Journal: Journal of Cleaner Production
    • Year: 2021
    • Volume: 281
    • Article ID: 124552
    • Citations: 86
  • Diesel engine spray characteristics prediction with hybridized artificial neural network optimized by genetic algorithm
    • Authors: Taghavifar, H., Khalilarya, S., Jafarmadar, S.
    • Journal: Energy
    • Year: 2014
    • Volume: 71
    • Pages: 656-664
    • Citations: 84
  • Diesel engine optimization with multi-objective performance characteristics by non-evolutionary Nelder-Mead algorithm: Sobol sequence and Latin hypercube sampling methods …
    • Authors: Navid, A., Khalilarya, S., Abbasi, M.
    • Journal: Fuel
    • Year: 2018
    • Volume: 228
    • Pages: 349-367
    • Citations: 80
  • Appraisal of artificial neural networks to the emission analysis and prediction of CO2, soot, and NOx of n-heptane fueled engine
    • Authors: Taghavifar, H., Taghavifar, H., Mardani, A., Mohebbi, A., Khalilarya, S., …
    • Journal: Journal of Cleaner Production
    • Year: 2016
    • Volume: 112
    • Pages: 1729-1739
    • Citations: 80
  • An exhaustive experimental study of a novel air-water based thermoelectric cooling unit
    • Authors: Dizaji, H.S., Jafarmadar, S., Khalilarya, S., Moosavi, A.
    • Journal: Applied Energy
    • Year: 2016
    • Volume: 181
    • Pages: 357-366
    • Citations: 79
  • Exergoeconomic analysis of a novel integrated transcritical CO2 and Kalina 11 cycles from Sabalan geothermal power plant
    • Authors: Abdolalipouradl, M., Khalilarya, S., Jafarmadar, S.
    • Journal: Energy Conversion and Management
    • Year: 2019
    • Volume: 195
    • Pages: 420-435
    • Citations: 77