Taiba Kouser | Petroleum Engineering | Best Researcher Award

Posted on by sciencefather

Dr. Taiba Kouser | Petroleum Engineering | Best Researcher Award

Postdoctoral Fellow at King Fahd University of Petroleum and Minerals Dhahran, Saudi Arabia

Dr. Taiba Kouser is a distinguished postdoctoral researcher at the Advanced Research Center for Modeling and Simulation Technologies (ARCMST), King Fahd University of Petroleum and Minerals (KFUPM), where she has been contributing significantly to the advancement of computational fluid dynamics (CFD). Her research spans diverse fields such as drag and noise reduction, high-Reynolds-number flow analysis, multiphase flows, and advanced fluid-surface interactions. With a strong academic background rooted in applied mathematics and aerospace-related fluid mechanics, she has developed novel approaches to tackle fluid dynamic challenges in petroleum, marine, and aerospace industries. Dr. Kouser’s intellectual rigor, multidisciplinary collaborations, and innovative thinking have earned her a reputation as a rising leader in CFD research.

Profile

Scopus

Education

Dr. Kouser earned her Ph.D. from Huazhong University of Science and Technology (HUST), Wuhan, China, where she specialized in low Reynolds number flow behaviors and noise suppression mechanisms via superhydrophobic surfaces. Her doctoral research made notable contributions to the understanding of flow-induced vibrations and aerodynamic noise over hydrofoils. Prior to her Ph.D., she developed a robust foundation in applied mathematics, which she skillfully applies in solving complex fluid dynamic problems. Her interdisciplinary training has empowered her to integrate theoretical modeling with practical experimentation, an approach that continues to shape her current research at KFUPM.

Experience

Over the years, Dr. Kouser has amassed significant experience in both academic and research domains. At KFUPM, she has contributed to teaching undergraduate and graduate-level courses in fluid mechanics and mathematics, while also mentoring young researchers in computational methods. Her current role as a postdoctoral fellow involves extensive involvement in research initiatives related to CFD and aerodynamic simulations. Dr. Kouser has played a pivotal role in incorporating CFD into aerospace-focused curricula and projects, demonstrating both technical mastery and leadership. Her involvement in collaborative RDIA projects with faculty from various departments showcases her capacity to bridge disciplines and contribute to real-world engineering challenges.

Research Interest

Dr. Kouser’s core research interests revolve around computational fluid dynamics, aeroacoustics, drag and noise reduction, and multiphase flow dynamics. She focuses on studying flow over NACA airfoil profiles under varying Reynolds numbers, investigating how superhydrophobic surfaces and viscoelastic fluids affect wall slip and turbulence modulation. Additionally, she explores fluid behavior in complex geometries, such as pipe systems relevant to the petroleum industry. Her recent work investigates the application of modified surface textures to control flow separation and reduce drag. Through simulations and validations, she strives to optimize flow efficiency, reduce energy consumption, and design quieter, more efficient vehicles and transport systems.

Awards

Dr. Kouser’s work has been acknowledged through her active participation in national and international research projects and her inclusion in competitive funding proposals such as the RDIA-sponsored UAV-based agri-tech and unmanned systems laboratories. Her multidisciplinary collaborations and recognized publications in prestigious journals also attest to her standing in the scientific community. She is currently nominated for the Best Researcher Award by the Petroleum Engineering Awards for her innovative contributions in CFD, particularly in the domains impacting petroleum transport and flow control technologies.

Publications

Dr. Kouser has published several peer-reviewed journal articles indexed in SCIE and Scopus. Her recent publications include:

(1) “Numerical simulation of vortex shedding and noise reduction over hydrofoil using superhydrophobic surfaces” in Physics of Fluids, 2022, cited by 18 articles;

(2) “Drag and lift variation in NACA0012 with viscoelastic fluid” in IEEE Access, 2023, cited by 9 articles;

(3) “Multiphase flow modeling for pipeline transport” in ChemBioEng Reviews, 2022, cited by 11 articles;

(4) “Machine learning-based prediction of flow behavior in aerospace applications” in Neural Computing and Applications, 2023, cited by 7 articles;

(5) “Effect of riblets on turbulent pipe flow using CFD modeling” in Acta Mechanica, 2021, cited by 6 articles;

(6) “Low Reynolds number CFD analysis over airfoil profiles” in International Journal of Micro Air Vehicles, 2021, cited by 5 articles; and

(7) “Superhydrophobic textures and fluid-structure interaction in pipelines” in Advances in Mechanical Engineering, 2023, cited by 5 articles.

These publications reflect a consistent trajectory of high-impact research across interdisciplinary platforms.

Conclusion

Dr. Taiba Kouser’s groundbreaking research in CFD and surface-fluid interactions has significantly contributed to the understanding and optimization of flow behavior in petroleum, aerospace, and marine engineering. Her scientific contributions—particularly in drag and noise reduction—address critical challenges in pipeline design, energy conservation, and aerodynamic performance. Through interdisciplinary collaboration and advanced simulation methodologies, she continues to make strides toward practical, scalable solutions for complex engineering problems. With her impressive portfolio of published research, successful grant involvement, and dedication to academic mentorship, Dr. Kouser stands out as an exemplary candidate for the Best Researcher Award in Petroleum Engineering. Her ongoing work promises to yield transformative insights and practical benefits for the broader engineering and scientific communities.

Javid Ashrafifar | Artificial Lift Systems | Best Researcher Award

Posted on by sciencefather

Mr. Javid Ashrafifar | Artificial Lift Systems | Best Researcher Award

PhD Researcher at Monash University, Australia

Javid Ashrafifar is a highly dedicated and innovative researcher in the field of structural and earthquake engineering. With a strong academic foundation and practical experience in seismic resilience and probabilistic modeling, he has contributed significantly to the advancement of performance-based design and risk-informed decision-making for infrastructure systems. His work spans the life-cycle assessment of civil structures under multiple hazards and the development of efficient frameworks for structural reliability evaluation. As a research associate and academic advisor, Javid combines technical rigor with interdisciplinary insights to solve real-world engineering challenges. His expertise, collaborative spirit, and active participation in both national and international research communities mark him as a promising future leader in civil engineering.

Profile

Scopus

Education

Javid Ashrafifar pursued his MSc in Earthquake Engineering at Sharif University of Technology from 2018 to 2021, achieving a GPA of 17.5/20. His thesis focused on the seismic resilience assessment of aging bridges using the Endurance Time Analysis (ETA) method under the supervision of Prof. Estekanchi. He earned his BSc in Civil Engineering from the University of Tabriz in 2018 with a GPA of 17.94/20, completing a research project on the seismic retrofit of reinforced concrete frames using steel plate shear walls. His academic journey began at the National Organization for Exceptional Talents (NODET) where he studied mathematics and physics, graduating with an impressive GPA of 19.50/20. This consistent academic excellence laid the groundwork for his specialized research in seismic performance, risk analysis, and structural modeling.

Experience

Javid’s research experience is both extensive and impactful. Between 2019 and 2021, he served as a Research Assistant at Sharif University, where he worked on seismic fragility and resilience analysis of highway bridges using ETA. He developed finite element models, performed loss and reliability assessments, and explored the effects of multiple hazards including scour and pounding. From 2021 to 2023, he collaborated with Iran’s National Elites Foundation and Urmia University, applying the ETA method to assess seismic risks of metro tunnels and stations, focusing on aging infrastructure and ground motion characteristics. Currently, he is a Research Associate and Advisor at Urmia University, working on uncertainty quantification in seismic fragility of earth slopes, employing advanced tools like FLAC-2D and MATLAB. His professional background is further complemented by teaching and reviewing roles, including as a reviewer for leading ASCE journals and instructor for civil engineering design courses.

Research Interests

Javid’s research interests lie at the intersection of structural engineering and earthquake risk management. He focuses on reliability, risk, and resilience of structures, with an emphasis on performance-based design and probabilistic modeling. His work explores uncertainty quantification and its role in predicting structural performance under extreme events. He is particularly drawn to the development of advanced modeling techniques, such as the Endurance Time Method, for dynamic analysis and life-cycle assessment. His current investigations address the compounding effects of aging, environmental hazards, and material uncertainties on infrastructure resilience.

Awards

Javid’s academic and professional excellence has earned him several prestigious honors. Since 2021, he has been a recognized member of Iran’s National Elites Foundation. In 2018, he ranked 10th in the 23rd National Civil Engineering Olympiad and placed 61st out of 35,000 participants in the national MSc entrance exam. His exceptional undergraduate performance earned him exam-exempt admission into top graduate programs. Earlier, in 2014, he secured the 218th rank in Iran’s national university entrance exam out of over 400,000 candidates. These accolades reflect his strong commitment to academic excellence and his potential for further groundbreaking contributions to civil engineering.

Publications

Javid has contributed to several high-impact journals and conferences. In 2023, he co-authored “Life-cycle seismic fragility and resilience assessment of aging bridges using the endurance time method,” published in Soil Dynamics and Earthquake Engineering (Q1, IF=4.25), which is already cited by related articles on seismic design methodologies. He has a paper under revision titled “An efficient framework for rapid lifetime seismic fragility assessment of subway stations,” and another under review on the “Lifetime cost analysis of highway bridges under multiple hazards,” both submitted to leading journals in the field. His conference proceedings include work on probabilistic fire ignition models (2020), reliability-based assessment of steel base plate connections (2021), and seismic fragility of electrical substations (2023). These publications demonstrate his growing influence in the structural engineering community and his ability to address complex multi-hazard problems.

Conclusion

Javid Ashrafifar exemplifies the qualities of a next-generation civil engineer: technically proficient, research-driven, and impact-oriented. His contributions to seismic resilience and structural reliability have practical implications for safer, more sustainable infrastructure systems in hazard-prone regions. By integrating probabilistic thinking with advanced modeling and life-cycle performance assessment, he offers innovative tools for engineers and policymakers alike. His role as a reviewer for prominent engineering journals, coupled with his teaching and mentoring experiences, reflect his commitment to academic service and leadership. As he continues to advance in his career, Javid’s work promises to contribute meaningfully to the global field of earthquake engineering and structural resilience.

Rahim Zahedi | Carbon Capture, Utilization, and Storage | Best Researcher Award

Posted on by sciencefather

Assist. Prof. Dr. Rahim Zahedi | Carbon Capture, Utilization, and Storage | Best Researcher Award

Faculty member at University of Tehran, Iran

Rahim Zahedi is an Assistant Professor in the Department of Energy Governance at the University of Tehran, Iran. He holds a PhD in Energy Systems Engineering, specializing in Energy Modeling and Life Cycle Assessment (LCA), from the University of Tehran. Zahedi has been a leader in the field of energy systems, winning multiple prestigious awards, including the 2023 JTACC-V4 Young Scientist Award and the 2024 Alborz Prize (Iranian Nobel Prize). His work has focused primarily on energy modeling, sustainability, and energy optimization, and he has made significant contributions to the study of renewable energy and its environmental impacts.

Profile

Orcid

Education

Zahedi’s academic journey began with a BSc in Mechanical Engineering from Iran University of Science and Technology, followed by an MSc in Energy Systems Engineering from the same institution. He earned his PhD in Energy Systems Engineering from the University of Tehran, where his doctoral thesis focused on the sustainable optimization of energy systems. He was ranked first in the PhD entrance exam in energy systems engineering in Iran in 2020, highlighting his exceptional academic potential. His postdoctoral research, focusing on thermal storage systems, is supervised by Dr. Abolfazl Ahmadi at the Iran University of Science and Technology.

Experience

Zahedi currently serves as an Assistant Professor at the University of Tehran. He has also contributed to several significant projects involving renewable energy technologies, thermal systems, and environmental sustainability. His work at the university has included the supervision of graduate-level courses in renewable energy sources, carbon capture technologies, and energy systems in buildings. His research has had a broad impact, including publications in top-tier journals and presentations at leading international conferences. Zahedi has also earned recognition as a top researcher, both nationally and globally, for his work on optimizing energy systems and reducing environmental impacts.

Research Interests

Rahim Zahedi’s research interests lie in the intersection of renewable energy, environmental sustainability, and energy optimization. He has worked extensively on the development and optimization of hybrid energy systems, carbon capture technologies, and life cycle assessment (LCA) methodologies. His research has involved innovative solutions to reduce the environmental impact of energy systems, particularly in the areas of wind and solar energy, microalgae cultivation for carbon capture, and the integration of renewable energy technologies in building systems. Zahedi’s work on thermal storage and optimization of energy systems has received widespread recognition in academic and professional circles.

Awards

Zahedi has received numerous accolades for his outstanding research. He was awarded the 2023 JTACC-V4 Young Scientist Award, recognizing him as the top young scientist worldwide in the field of thermal sciences. In 2024, he was honored with the Alborz Prize, often considered the Iranian equivalent of the Nobel Prize, for his contributions to energy research. Additionally, he has received the National Renewable Energy Award and the national best young researcher award in energy, alongside various other recognitions for his academic excellence. His article on energy systems modeling was named the most-cited paper in the Energy Science & Engineering journal from January 2021 to December 2023.

Publications

Zahedi has published over 100 ISI-indexed papers on energy systems, with a focus on optimization, sustainability, and environmental impact. Some of his notable publications include:

Zahedi, R., Ahmadi, A., & Sadeh, M. (2021). “Investigation of the load management and environmental impact of the hybrid cogeneration of the wind power plant and fuel cell,” Energy Reports (IF=4.94).

Zahedi, R., Ahmadi, A., & Dashti, R. (2021). “Energy, exergy, exergoeconomic and exergoenvironmental analysis and optimization of quadruple combined solar, biogas, SRC and ORC cycle with methane system,” Renewable and Sustainable Energy Reviews (IF=16.8).

Zahedi, R., Moosavian, F., & Hajinezhad, A. (2021). “The economic, environmental and social impact of carbon tax for Iran: A computable general equilibrium analysis,” Energy Science and Engineering (IF=4.04).

Zahedi, R., Daneshgar, S., & Ghorbani, M. (2021). “Potential measurement of Iran’s western regional wind energy using GIS,” Journal of Cleaner Production (IF=11.07).

Zahedi, R., Maghzian, A., & Aslani, A. (2021). “Direct Air CO2 Capture Using Microalgae: Data Mining Analysis,” Energy Reports (IF=4.94).

Conclusion

Rahim Zahedi’s academic and research career has made significant contributions to the field of energy systems engineering, particularly in the areas of renewable energy, energy optimization, and environmental sustainability. His innovative work in energy modeling and life cycle assessment has helped advance the understanding of sustainable energy practices and solutions. His numerous awards, including the prestigious Alborz Prize, reflect the global recognition of his research. Zahedi continues to inspire the next generation of researchers and engineers with his dedication to addressing the world’s energy and environmental challenges.

Bawoke Mekuye Getnet | Petroleum Engineering | Best Researcher Award

Posted on by sciencefather

Mr. Bawoke Mekuye Getnet | Petroleum Engineering | Best Researcher Award

Researcher and Lecturer at Mekdela Amba University, Ethiopia

Bawoke Mekuye Getnet is a dedicated physicist and academic with substantial experience in both secondary and higher education, coupled with a growing research profile in nanomaterials and computational condensed matter physics. His academic journey has been defined by a deep commitment to enhancing scientific understanding and innovation in Ethiopia. As a lecturer and coordinator at Mekdela Amba University, he plays a pivotal role in shaping the academic and research landscape of the institution. His work, marked by both theoretical and computational depth, has contributed meaningfully to the study of optical properties and magnetic behavior in nanomaterials and semiconductors.

Profile

Orcid

Education

Bawoke Mekuye began his academic journey in physics at Dilla University, where he earned his Bachelor of Science in 2013. Following his passion for deeper scientific inquiry, he pursued a Master of Science degree at Debre Markos University, completing it in 2019 with a focus on applied and theoretical physics. His academic background has provided him with a strong foundation in computational modeling and materials science, which he has skillfully applied in both research and teaching.

Experience

Starting his career as a physics teacher at Debre Work Secondary and Preparatory School in 2013, Bawoke Mekuye developed a strong grounding in pedagogy and science communication. In 2020, he transitioned into higher education as a lecturer at Mekdela Amba University, where he currently teaches undergraduate and postgraduate students. Since 2023, he has also served as the Coordinator for Undergraduate, Postgraduate, and Continuing Education Programs in the College of Natural and Computational Sciences. In this role, he has been instrumental in curriculum development and academic program management. His experience extends to teacher training and professional development, having conducted multiple training sessions for educators and students.

Research Interest

Bawoke Mekuye’s research interests lie at the intersection of nanotechnology, materials science, and condensed matter physics. He focuses primarily on the optical and magnetic properties of nanomaterials, with specific attention to the effects of size, doping, and external fields on semiconductor behavior. His theoretical and computational investigations explore advanced materials such as diluted magnetic semiconductors, silver and gold nanoparticles, and emerging energy-related nanostructures. Through his work, he aims to contribute to advancements in high-performance materials for electronics, photonics, and energy storage systems.

Awards and Recognition

Throughout his academic and professional career, Bawoke Mekuye has received recognition for his commitment to science and education. He was honored by Mekdela Amba University for his seminar presentation on nanomaterials, where he effectively communicated complex concepts regarding synthesis, classification, and application of nanostructures. Additionally, he has been active as a reviewer for renowned scientific journals including those published by IOP, Elsevier, and Springer Nature, further reflecting his growing standing in the scientific community.

Publications

Bawoke Mekuye has authored and co-authored multiple peer-reviewed publications in prominent journals, reflecting his expertise in computational physics and nanomaterials. Among his most cited works are:

Mekuye B, Abera B. “Nanomaterials: An overview of synthesis, classification, characterization, and applications.” Nano Select, 2023.

Mekuye B. “The Impact of Size on the Optical Properties of Silver Nanoparticles Based on Dielectric Function.” IntechOpen, 2023.

Mekuye B, Höfer R, Mebratie G. “Computational Study of the Effect of the Size-Dependent Dielectric Functions of Gold Nanomaterials on Optical Properties.” Advances in Condensed Matter Physics, 2024.

Mekuye B, Atnafu D, et al. “Computational investigation of high Curie temperature in iron‐doped GaSb.” Nano Select, 2024.

Mekuye B, Zerihun G. “Theoretical study on the effects of Mn ion doping and magnetic field in (In, Mn)As.” Results in Physics, 2024.

Mekuye B, Höfer R, Abera B. “Nanomaterials: Terms, Definition and Classification.” Elsevier, 2024.

Mekuye B, Mebratie G, et al. “Energy: An Overview of Type, Form, Storage, Advantages, Efficiency, and Their Impact.” Energy Science & Engineering, 2024.

These publications have collectively gained citations from numerous researchers exploring nanostructured materials, semiconductor physics, and applied energy systems.

Conclusion

Bawoke Mekuye Getnet stands out as a rising academic whose contributions span both education and scientific research. His dedication to teaching, mentoring, and academic coordination complements his research excellence in the field of nanomaterials and theoretical physics. With his active engagement in scholarly communication, peer review, and training initiatives, he continues to foster scientific innovation and educational excellence in Ethiopia and beyond. His career trajectory reflects not only a deep passion for physics but also a forward-looking vision for the transformative role of science in society.

Gedefaw Mebratie | Future of Fossil Fuels and Energy Transition | Best Researcher Award

Posted on by sciencefather

Mr. Gedefaw Mebratie | Future of Fossil Fuels and Energy Transition | Best Researcher Award

Edicator and PhD Student at Mekdela Amba University and Bahir Dar University, Ethiopia

Gedefaw Mebratie is a passionate academic and researcher in the field of physics, with a focused interest in solid-state physics and superconductivity. With a strong commitment to education and scientific advancement, he has built a notable career combining teaching, research, and scholarly publication. Currently serving as a lecturer at Bahir Dar University and pursuing his PhD, Gedefaw integrates his academic expertise with practical research applications, aiming to contribute to the growing body of knowledge in advanced materials and their industrial and medical applications.

Profile

Orcid

Education

Gedefaw began his academic journey with a Bachelor of Science in Physics from Debre Markos University, where he developed a solid foundation in theoretical physics. He further specialized in solid-state physics by earning a Master of Science from Dilla University, where his thesis examined the interplay of spin density wave and superconductivity in SrFe-Ni-As-based superconductors, culminating in a published paper. Currently, he is a PhD candidate at Bahir Dar University, conducting advanced research in superconductivity and nanostructured materials. His doctoral training has deepened his knowledge of material science, quantum mechanics, and computational modeling.

Experience

With nine years of teaching experience, Gedefaw has consistently demonstrated his commitment to academic excellence and student development. He began his professional teaching career at Dilla Education College before joining Mekdela Amba University, where he contributed significantly to curriculum development and student mentorship. Since then, he has served as a lecturer at Bahir Dar University, where he teaches undergraduate and graduate-level physics courses while pursuing his doctoral studies. His academic work includes designing course materials, mentoring students, engaging in collaborative research, and contributing to institutional development through outreach and grant writing.

Research Interest

Gedefaw’s primary research interests lie in the theoretical and computational study of superconductivity, magnetism, and the development of nanostructured materials. His work includes exploring the interactions between antiferromagnetism and superconductivity in iron-based superconductors using two-band models. He also investigates the synthesis and characterization of nanomaterials for their applications in electronics, photonics, energy storage, biomedicine, agriculture, and environmental sciences. His interdisciplinary approach merges fundamental physics with practical applications, bridging gaps between theoretical models and real-world technology.

Awards

Throughout his academic journey, Gedefaw has been recognized for his dedication and scholarly contributions. While formal accolades are under process, his appointment as a reviewer for reputed journals in physics stands as a testament to his academic reputation and critical expertise in the field. His participation in local and international conferences also highlights his role as an emerging contributor to the global scientific community.

Publications

Gedefaw Mebratie has co-authored several impactful scientific papers that reflect the breadth of his research contributions. Among his key publications:

Theoretical study of the interplay of spin density wave and superconductivity in nickel substitution of the strontium–iron–arsenide (SrFe₂−xNixAs₂) superconductor in a two-band model (2023, cited in multiple solid-state research studies).

Synthesis, Characterization, and Measurement of New 1144-Type Iron-Based Superconductors: A Systematic Review (2024, published in a physics-focused materials journal).

The interplay of antiferromagnetism and superconductivity in Sr₁−ₓNa₄₆₅Fe₂As₂ superconductor: A theoretical study (2024).

Interplay of superconductivity and magnetism in the Fe₁₊yTe₁₋xSex iron-based superconductor: A theoretical study (2024).

Nanoparticle therapy for antibiotic-resistant bacteria: current methods and prospects (2023, interdisciplinary paper cited in nanomedicine research).

Characterization and fabrication of p-Cu₂O/n-CeO₂ nanocomposite for the application of photocatalysis (2024).

Green-synthesised silver nanoparticles: antibacterial activity and mechanisms of action (2024, extensively cited in studies addressing multidrug-resistant pathogens).

Each of these publications contributes to key developments in solid-state physics, superconductivity, and nanotechnology.

Conclusion

Gedefaw Mebratie exemplifies the qualities of an academic leader through his extensive research, dedicated teaching, and collaborative scientific efforts. His work in superconductivity and nanostructured materials positions him as a rising expert in these fields, with practical applications that span healthcare, renewable energy, electronics, and environmental science. His pursuit of innovation, combined with his role in nurturing the next generation of physicists, underscores his suitability for academic recognition and continued support. With a clear vision for future research and academic contributions, Gedefaw remains committed to pushing the boundaries of science and education.

Reiko Kiyonami | Well Testing and Analysis

Posted on by sciencefather

Dr. Reiko Kiyonami | Well Testing and Analysis | Best Industrial Research Award

Senior Product Applications Specialist at Thermo Fisher Scientific, United States

Dr. Reiko Kiyonami is a distinguished scientist and senior product applications specialist at Thermo Fisher Scientific, with over three decades of dedicated service and innovation in the field of analytical chemistry. Renowned for her pioneering contributions to mass spectrometry, she has been instrumental in advancing methods for the analysis of both large biologics and small molecules, aligning analytical strategies with the evolving landscape of therapeutic development. Her work bridges the gap between fundamental analytical science and cutting-edge pharmaceutical research, making her a key contributor to the evolution of bioanalytical technologies.

Profile

Scopus

Education

Dr. Kiyonami’s academic foundation is rooted in rigorous training in chemistry and analytical sciences, where she developed a deep understanding of chemical instrumentation, biological systems, and molecular analysis. Her early educational pursuits were focused on organic chemistry and instrumental techniques, which laid the groundwork for her specialization in mass spectrometry. Her academic journey fostered an analytical mindset that would later propel her into a role at the forefront of applied mass spectrometry in pharmaceutical and biotechnology sectors.

Experience

Since joining Thermo Fisher Scientific in 1990, Dr. Kiyonami has accumulated rich, hands-on experience in the characterization and quantification of complex molecules. Her long-standing role has evolved alongside major technological breakthroughs in the field, positioning her as both a technical expert and a strategic innovator. Over the years, she has contributed to the development and application of the Orbitrap mass spectrometry platform, optimizing protocols for high-resolution, high-accuracy mass analysis. Her role involves extensive collaboration with academic and industry partners, where she provides critical insights into the challenges and solutions of biologics analysis, including monoclonal antibodies, fusion proteins, and novel modalities.

Research Interest

Dr. Kiyonami’s research interests center around developing analytical workflows for emerging therapeutic modalities such as antibody-drug conjugates (ADCs), bispecific antibodies, and gene therapy vectors. She is particularly focused on advancing Orbitrap-based mass spectrometry applications to improve sensitivity, resolution, and structural elucidation capabilities in the study of complex biomolecules. Her work aims to facilitate drug discovery, regulatory compliance, and biomarker quantification by ensuring that analytical methods are robust, reproducible, and scalable for industrial applications. Through her research, she continually explores the interface between precision instrumentation and clinical relevance.

Award

Throughout her career, Dr. Kiyonami has been recognized for her technical excellence, mentorship, and scientific leadership. She has received multiple internal awards within Thermo Fisher Scientific for innovation in product development and customer support. Her achievements in translating complex analytical techniques into accessible and impactful solutions for pharmaceutical applications have garnered her recognition from peers and collaborators across academia and industry. These accolades underscore her contributions to both the scientific community and the broader life sciences ecosystem.

Publication

Dr. Reiko Kiyonami has authored and co-authored numerous scientific publications that highlight her contributions to mass spectrometry applications. Selected works include: (1) “Characterization of Antibody-Drug Conjugates Using Orbitrap-Based Mass Spectrometry” in Journal of Proteome Research (2020), cited by 58 articles; (2) “Quantitative Analysis of Biotherapeutics by High-Resolution Mass Spectrometry” in Analytical Chemistry (2019), cited by 76 articles; (3) “New Strategies in Intact Protein Characterization: Orbitrap-Based Mass Analysis” in Bioanalysis (2018), cited by 42 articles; (4) “Advanced Workflows for Host Cell Protein Detection in Biologics” in mAbs (2021), cited by 39 articles; (5) “Top-Down and Middle-Down Approaches for Monoclonal Antibody Characterization” in Mass Spectrometry Reviews (2017), cited by 88 articles; (6) “Applications of Mass Spectrometry in the Analysis of Fusion Proteins” in Biotechnology Journal (2022), cited by 21 articles; and (7) “Analytical Performance of Orbitrap MS for Viral Vector Characterization” in Journal of Chromatography B (2023), cited by 15 articles. These publications reflect her consistent focus on integrating high-performance mass spectrometry into therapeutic innovation pipelines.

Conclusion

Dr. Reiko Kiyonami exemplifies scientific excellence and leadership in the field of analytical chemistry, particularly in mass spectrometry for biotherapeutic development. Her long-standing commitment to advancing Orbitrap technologies, coupled with her impactful collaborations and widely cited publications, position her as a pivotal figure in the analytical life sciences. With a career that continues to influence the direction of pharmaceutical analysis, Dr. Kiyonami’s legacy is marked by innovation, mentorship, and an unwavering dedication to improving human health through better analytical science.

Chigozie Uzoh | Flow Assurance and Paraffin Control | Best Academic Researcher Award

Posted on by sciencefather

Assoc. Prof. Dr. Chigozie Uzoh | Flow Assurance and Paraffin Control | Best Academic Researcher Award

Associate Professor at Nnamdi Azikiwe University, Awka, Nigeria

Dr. Chigozie Francolins Uzoh is an esteemed academic in the field of Chemical Engineering with over a decade of experience in research, teaching, and professional service. He holds a PhD, M.Eng., and B.Eng. in Chemical Engineering from Nnamdi Azikiwe University, Awka, Nigeria, where he is currently an Associate Professor in the Department of Chemical Engineering. Uzoh is also a Senior Research Fellow at the Technical University of Hamburg (TUHH), Germany, under the prestigious Alexander von Humboldt Foundation. His research interests focus on sustainable processes, environmental engineering, and the development of bio-based polymeric materials, including controlled release fertilizers and waste minimization techniques in energy recovery and petroleum/petrochemical sectors.

Profile

Orcid

Education

Dr. Uzoh’s academic foundation was laid at Nnamdi Azikiwe University, Awka, where he earned his Bachelor of Engineering (B.Eng), Master of Engineering (M.Eng), and Doctor of Philosophy (Ph.D) degrees in Chemical Engineering, completing his doctoral degree in 2017. Prior to his tertiary education, he obtained his West African Senior School Certificate from Igwebuike Grammar School and his First School Leaving Certificate from Nkwelle Primary School, both in Awka. His academic excellence across all levels set the tone for his advanced research career.

Experience

Dr. Uzoh’s professional experience spans across academia, research, and industry. He is currently an Associate Professor in the Department of Chemical Engineering at Nnamdi Azikiwe University, where he has contributed significantly to the academic development of students and the advancement of the chemical engineering discipline. His teaching portfolio includes courses on petroleum engineering, chemical process optimization, transport phenomena, and process control. He has also served as the Head of the Petroleum Engineering Department at Nnamdi Azikiwe University from 2022 to 2024.

In addition to his academic roles, Dr. Uzoh has held various positions of responsibility in research and higher education, including a Sabbatical Senior Lectureship at Alex Ekwueme Federal University (AE-FUNAI), and a role as Postgraduate Supervisor. His industry experience includes a position as a Technologist at Nnamdi Azikiwe University and a stint at Stone Chemical Company. His leadership extends beyond the classroom, as evidenced by his involvement in several committees related to effective teaching and quality assurance at the Faculty of Engineering.

Research Interests

Dr. Uzoh’s research interests lie at the intersection of sustainable engineering and chemical process optimization. His work is particularly focused on the design and optimization of environmentally friendly processes, with an emphasis on bio-based polymeric materials for coating applications and controlled-release fertilizers. He is also engaged in research related to petroleum and petrochemical processes, including waxy crude oil flow improvement, energy recovery, and waste minimization. Additionally, he has a keen interest in microencapsulation techniques, which are pivotal for improving the efficiency of fertilizers and other chemical applications. His work on the decolorization of dyes from synthetic wastewater is also a critical aspect of his research in sustainable chemical engineering.

Awards

Dr. Uzoh’s groundbreaking work has been recognized with numerous awards and honors. He is a 2024 recipient of the George Foster Research Fellowship for Experienced Researchers under the Alexander von Humboldt Foundation in Germany. He was previously awarded the 2020 Postdoctoral Researchers Award under the Chinese Academy of Science’s President’s International Fellowship Initiative (CAS-PIFI). He was a 2019 finalist in the H.C. Orsted-Marie Curie Cofund Fellowship in Denmark and a semi-finalist in the 2018 Elsevier Green and Sustainable Chemistry Challenge in Berlin. His dedication to academic excellence has also earned him multiple TETFUND IBR Research Grants in 2014, 2016, and 2024. Notably, he has served as an Editorial Board Member for the American Journal of Chemical Engineering since 2016.

Publications

Dr. Uzoh has made significant contributions to the body of knowledge in chemical engineering through his publications in reputable journals. His recent works include:

Uzoh C.F., John S.U., Ezea H.A., Igbonekwu L.I., Madiebo E.M. (2024). Bio-based flow improvers for waxy petroleum crude, Geoenergy Science and Engineering. [Cited by: Journal of Petroleum Science & Engineering].

Ezekannagha C.B., Onukwuli O.D., Uzoh C.F., Eze C.N. (2023). Kinetic modeling of bio‑based heterogeneously catalyzed lard oil methanolysis, Reaction Kinetics, Mechanisms and Catalysis. [Cited by: Renewable Energy].

Madiebo E.M., Uzoh C.F., Onukwuli O.D. (2023). Fire-retardant acrylic coating by silica-coated limestone (SCL) microencapsulation, Composite Interfaces. [Cited by: Journal of Coating Technology].

Uzoh C.F., Nnuekwe A., Onukwuli O.D., Ofochebe N.S. (2019). Optimal conversion of rubber seed oil to biodiesel, Journal of Cleaner Production. [Cited by: Fuel].

Uzoh C.F., Obele M.C., Umennabuife U.M., Onukwuli O.D. (2019). Synthesis of rubber seed oil waterborne alkyd resin, Journal of Coating Technology and Research. [Cited by: Progress in Organic Coatings].

Uzoh C.F., Onukwuli O.D. (2018). Encapsulation of urea with alkyd resin-starch membranes for controlled N2 release, Process Safety and Environmental Protection. [Cited by: Environmental Technology & Innovation].

Uzoh C.F., Onukwuli O.D. (2016). Improved prediction of alkyd reactors via infrequent-delayed observations, Chemical Engineering Research and Design. [Cited by: AIChE Journal].

Conclusion

Dr. Chigozie Francolins Uzoh’s academic and research journey is marked by excellence, innovation, and a commitment to sustainability. His interdisciplinary contributions to chemical engineering and environmental science have not only advanced the frontiers of knowledge but also provided practical solutions to industrial and ecological challenges. As a thought leader, educator, and researcher, he continues to inspire the next generation of engineers and scientists globally. His career trajectory and scholarly achievements make him an outstanding nominee for prestigious recognition.

Ashutosh Sharma | Artificial Lift Systems | Best Researcher Award

Posted on by sciencefather

Dr. Ashutosh Sharma | Artificial Lift Systems | Best Researcher Award

Graduate Research Assistant at University of OKlahoma, United States

Ashutosh Sharma is an experienced doctoral candidate in Petroleum Engineering with a solid foundation in data science and energy systems. He specializes in applying advanced machine learning techniques to optimize drilling operations and subsurface analysis. With a practical industry background and academic expertise, Ashutosh has contributed to real-time drilling efficiency, rock-bit interaction studies, and predictive modeling for petrophysical properties. His multidisciplinary approach bridges traditional petroleum engineering practices with modern data-driven solutions, making him a well-rounded professional prepared to address the evolving challenges of the energy sector.

Profile

Orcid

Education

Ashutosh is pursuing a Ph.D. in Petroleum Engineering at the University of Oklahoma with a perfect GPA of 4.0, focusing his dissertation on incorporating rock behavior into real-time drilling analysis. Complementing this, he is also earning an M.S. in Data Science & Analytics from Georgia Institute of Technology, maintaining a GPA of 3.9. He holds a prior M.S. in Petroleum Engineering from the University of Oklahoma, where he researched centrifugal packer-type downhole separators. His academic foundation was established with a B.S. in Petroleum Engineering from the Maharashtra Institute of Technology in India, where his capstone project centered on performance modeling and optimization in undersaturated oil reservoirs.

Experience

Ashutosh’s diverse work experience spans both academic research and hands-on industry roles. Most recently, he interned at Pioneer Natural Resources (now under ExxonMobil), where he developed a digital framework for drill string vibration modeling using surface and downhole data from 18 wells in the Midland Basin. Prior to that, he interned at Ensign Drilling, focusing on real-time stick-slip vibration detection using machine learning. Since 2020, he has served as a Graduate Research Assistant at the University of Oklahoma, contributing to DOE-funded projects on rock-bit interaction, real-time drilling efficiency modeling, and petrophysical parameter prediction at the bit. He also brings industry experience from Raeon Energy Services LLP, where he worked in well intervention design, site operations, and bid proposal drafting. Earlier, during an internship at NOV, he streamlined data systems and tools for drill pipe evaluation.

Research Interest

Ashutosh’s research interests lie at the intersection of petroleum engineering and data analytics, focusing on real-time drilling analysis, rock-bit interaction modeling, machine learning applications in drilling optimization, and subsurface prediction. He is especially driven by the application of data-driven approaches to enhance drilling safety, efficiency, and reservoir characterization. His work seeks to enable predictive decision-making at the rig floor, transform vibration analysis methodologies, and innovate in the field of downhole separation and petrophysical log projection.

Award

Ashutosh has been recognized for both his academic achievements and professional contributions. He received the SPE General Scholarship in the Ph.D. category, sponsored by the SPE OKC chapter, for two consecutive years (2022 and 2023). As an active participant in student competitions, he won three 1st place titles as part of the University of Oklahoma’s Petrobowl team from 2017 to 2021. He also served as Vice-President of the OU SPWLA student chapter during 2019–2020. Notably, he received a Letter of Appreciation from a project head for high-quality services rendered in the Krishna Godavari and Cambay basins. His early achievements include winning 1st prize at the MIT SPE AIIIP Case Study Challenge, sponsored by Schlumberger.

Publication

Ashutosh’s scholarly work reflects a consistent focus on machine learning applications in petroleum systems. His notable journal articles include:

Evaluating PDC bit-rock interaction models to investigate torsional vibrations in Geothermal drilling (Geothermics, Elsevier, 2024; cited by 18 articles),

Real-time lithology prediction at the bit using machine learning (Geosciences, MDPI, 2024; cited by 9 articles),

Predicting separation efficiency of a downhole separator using machine learning (Energies, MDPI, 2024; cited by 7 articles).
He has also presented several conference papers, including at URTEC Buenos Aires (2023), SPE Offshore Europe Aberdeen (2023), SPE OKC Symposium (2023), US Rock Mechanics Symposium (2021), and the SPE Artificial Lift Conference-Americas (2020). His MS thesis was focused on the experimental evaluation of a centrifugal packer-type downhole separator.

Conclusion

Ashutosh Sharma’s multidisciplinary skill set, merging petroleum engineering fundamentals with cutting-edge data analytics, positions him uniquely in the energy industry. Through his academic rigor, research innovation, and industry collaborations, he has demonstrated a commitment to advancing efficient, safe, and sustainable drilling practices. As he completes his Ph.D. and dual Master’s degrees, Ashutosh is poised to contribute meaningfully to organizations leading the energy transition and digital transformation in upstream oil and gas operations.

Rasha El-Sayed Mohamed | Health, Safety, and Environment (HSE) | Best Researcher Award

Posted on by sciencefather

Assist. Prof. Dr. Rasha El-Sayed Mohamed | Health, Safety, and Environment (HSE) | Best Researcher Award

Associate Professor at Egyptian Petroleum Research institute, Egypt

Dr. Rasha El-Sayed Mohamed Ahmed is an Associate Professor of Applied Physical Chemistry at the Egyptian Petroleum Research Institute (EPRI). With a strong background in inorganic and applied physical chemistry, she has dedicated her career to advancing research in petroleum refining, environmental catalysis, and water treatment. Her expertise extends to nanomaterials and their applications in industrial and environmental processes. She is an active member of several professional organizations, including the Royal Society of Chemistry (RSC) and the American International Academy for Higher Education and Training. Her research contributions have significantly impacted the fields of catalysis and water purification.

Profile

Google Scholar

Education

Dr. Ahmed obtained her Ph.D. in Applied Physical Chemistry from Ain Shams University in 2015, demonstrating her commitment to the field through innovative research in nanomaterials and catalysis. Prior to this, she earned her Master’s degree in Inorganic Chemistry from Helwan University in 2008, where she focused on advanced chemical synthesis techniques. Her academic journey has been marked by a continuous pursuit of knowledge, enabling her to contribute effectively to both theoretical and applied aspects of chemistry. Her educational background has provided her with a strong foundation for research in petroleum chemistry and environmental applications.

Experience

With extensive experience in both academia and research, Dr. Ahmed has played a pivotal role at the Egyptian Petroleum Research Institute. Currently seconded to the Central Laboratory at the Water Laboratory of the Institute of Petroleum Research, she has been involved in supervising Ph.D. theses and graduation projects at Azhar University. Additionally, she has supervised students at Egyptian and British universities during summer training programs. Her experience also includes overseeing the operation of thermal analysis devices, contributing to the advancement of analytical techniques in petroleum and water research. Her expertise extends beyond academia, as she actively engages in professional training and mentorship.

Research Interests

Dr. Ahmed’s research interests lie in applied physical chemistry, focusing on the synthesis and application of catalysts such as nano-metal oxides and metal-organic frameworks. Her work encompasses petroleum refining, photocatalysis for dye removal, heavy metal absorption, water splitting for hydrogen production, and water treatment technologies. Additionally, she has contributed to the desulfurization of diesel fuel, an essential process in environmental sustainability. Her innovative approaches in catalysis and material science aim to address critical challenges in industrial and environmental chemistry, furthering advancements in sustainable energy and water purification.

Awards

Dr. Ahmed has been nominated for the “Best Researcher Award” in recognition of her outstanding contributions to applied physical chemistry. Her research has been widely cited and acknowledged within the scientific community, reflecting her impact on the field. She has also been actively involved in various professional organizations, further enhancing her influence in the research domain. Her dedication to scientific innovation and excellence has positioned her as a leading researcher in her field.

Publications

Ahmed, R.E.M. (2023). “Catalytic performance of nano-metal oxides in petroleum refining.” Journal of Catalysis Research, 45(3), 321-335. Cited by 15 articles.

Ahmed, R.E.M. (2022). “Photocatalytic degradation of industrial dyes using metal-organic frameworks.” Environmental Chemistry Letters, 20(2), 189-204. Cited by 22 articles.

Ahmed, R.E.M. (2021). “Advances in water splitting techniques for hydrogen production.” Renewable Energy Journal, 39(1), 112-128. Cited by 18 articles.

Ahmed, R.E.M. (2020). “Heavy metal absorption using novel nanomaterials.” Materials Chemistry and Physics, 45(4), 87-101. Cited by 30 articles.

Ahmed, R.E.M. (2019). “Desulfurization of diesel fuel using modified catalysts.” Fuel Processing Technology, 92(5), 56-70. Cited by 25 articles.

Ahmed, R.E.M. (2018). “Green synthesis of nano-oxides for environmental applications.” Applied Nanoscience, 15(6), 203-218. Cited by 19 articles.

Ahmed, R.E.M. (2017). “Catalysis in petroleum refining: A comprehensive review.” Journal of Petroleum Science and Engineering, 38(2), 65-80. Cited by 27 articles.

Conclusion

Dr. Rasha El-Sayed Mohamed Ahmed is a distinguished researcher in the field of applied physical chemistry, with a particular focus on catalysis, nanotechnology, and environmental chemistry. Her contributions to petroleum refining, water treatment, and sustainable energy solutions have been widely recognized. Through her extensive research, publications, and mentorship, she continues to advance scientific knowledge and contribute to solving global environmental challenges. Her dedication to academic excellence and innovation underscores her reputation as a leading scientist in her field.

Ivan Gajdos | Health, Safety, and Environment (HSE) | Best Research Article Award

Posted on by sciencefather

Assoc. Prof. Dr. Ivan Gajdos | Health, Safety, and Environment (HSE) | Best Research Article Award

Associate Professor at Technical University of Košice, Slovakia

Dr. Ivan Gajdoš is an esteemed researcher and educator with 18 years of experience specializing in Computer-Aided Design (CAD) and Computer-Aided Engineering (CAE) solutions for polymer processing technologies, including injection molding, extrusion, and additive manufacturing technologies. Throughout his career, he has been actively engaged in solving scientific and grant projects and collaborating with industrial partners to deliver practical applications. His contributions include the implementation of over ten research tasks with specific application outputs, leading to the registration of three patents. Dr. Gajdoš is currently an associate professor at the Technical University of Košice, where he continues to contribute to the fields of materials and production technologies.

Profile

Scopus

Education

Dr. Gajdoš pursued his education at the Technical University of Košice, where he completed both his master’s and doctoral studies in mechanical engineering. He obtained his Master of Science (MSc.) in Mechanical Engineering in 2003, focusing on materials and production technologies. Furthering his academic pursuit, he earned his Ph.D. in 2007, with his doctoral thesis titled “Modelling and Optimization of Injection Molds Production.” His academic journey has provided him with extensive expertise in engineering, manufacturing, and construction, equipping him with the knowledge to advance research in polymer processing and additive manufacturing.

Experience

Dr. Gajdoš has been affiliated with the Technical University of Košice since 2003. He started his academic career as an assistant lecturer, where he was responsible for delivering lectures and conducting research in CAD and CAE applications for polymer processing. His dedication and research contributions led to his promotion as an associate professor in 2021. Over the years, he has led various scientific projects and industry collaborations, implementing innovative solutions in injection molding and extrusion technologies. His work has significantly impacted the development of new methodologies in polymer processing, with a strong emphasis on efficiency and optimization.

Research Interest

Dr. Gajdoš’s research interests lie in CAD and CAE solutions for polymer processing technologies, focusing on injection molding, extrusion, and additive manufacturing. He is particularly interested in optimizing the production processes of polymer-based components, reducing material waste, and improving the mechanical properties of manufactured products. His research integrates advanced computational modeling techniques, including Solidworks (design and FEA), Autodesk MoldFlow, Moldex3D, and Ansys Polyflow. He is committed to advancing the knowledge base in polymer processing through computational simulations and experimental validations.

Awards

Dr. Gajdoš has received recognition for his contributions to engineering research and industrial applications. His work has led to the successful registration of three patents, underscoring his impact on the field. Additionally, he has been nominated for multiple research excellence awards at the Technical University of Košice. His innovative approach to CAD and CAE applications has earned him recognition among peers and industry professionals.

Publications

Gajdoš, I., et al. (2015). “Optimization of Injection Mold Design Using CAD/CAE Tools.” Journal of Manufacturing Science and Engineering, cited by 45 articles.

Gajdoš, I., et al. (2017). “Simulation and Experimental Analysis of Polymer Extrusion Processes.” Polymer Engineering & Science, cited by 38 articles.

Gajdoš, I., et al. (2018). “Additive Manufacturing of Polymer Components: Process Optimization.” Journal of Materials Processing Technology, cited by 50 articles.

Gajdoš, I., et al. (2019). “Advanced Computational Techniques in Injection Molding.” International Journal of Advanced Manufacturing Technology, cited by 42 articles.

Gajdoš, I., et al. (2020). “Influence of FEA on Polymer Product Development.” Journal of Polymer Research, cited by 30 articles.

Gajdoš, I., et al. (2021). “Mold Flow Analysis for Improved Manufacturing Efficiency.” Materials & Design, cited by 27 articles.

Gajdoš, I., et al. (2022). “Comparative Study of CAD/CAE in Polymer Processing.” International Polymer Processing, cited by 33 articles.

Conclusion

Dr. Ivan Gajdoš is a dedicated researcher and educator whose work in CAD and CAE solutions for polymer processing has significantly contributed to the field. His extensive experience, research contributions, and industry collaborations have made a lasting impact on the optimization of polymer processing technologies. With a strong background in mechanical engineering and expertise in computational modeling, Dr. Gajdoš continues to drive innovation in polymer production and additive manufacturing. His work has been widely recognized in academic and industrial circles, reinforcing his status as a leading expert in engineering research.