Dr. M. Doaa Salah – Applied Mathematics – Best Researcher Award

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Dr. M. Doaa Salah - Applied Mathematics - Best Researcher Award

Sohag University - Egypt

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Summary

Doaa Mohamed Salah Mohamed is an emerging scholar in the field of applied mathematics, holding both bachelor's and master's degrees from sohag university, egypt. her academic journey has been marked by excellence in mathematical sciences, with a focus on areas such as hydrodynamics, fluid dynamics, elasticity, and computational modeling — all essential to various interdisciplinary fields, including power electronics. she has developed strong skills in software like mathematica, matlab, maple, and latex, which are vital for advanced mathematical research and simulation.

In her professional endeavors, doaa has contributed to the international scientific community as a reviewer for the journal of mechanics of solids. her research output includes 7 published articles, cited 10 times, with a scopus h-index of 2. her work demonstrates practical applications in mechanics and the potential to influence areas like power electronics, where mathematical precision is critical for system design and optimization.

Early academic pursuits

Doaa Mohamed salah mohamed demonstrated a keen interest in applied mathematics from an early stage of her education. she earned her bachelor of science degree in mathematics from sohag university, egypt, in 2016, graduating with an impressive overall percentage of 84.42% and awarded "very good with honor." her undergraduate journey was marked by consistent academic excellence, Applied Mathematics especially in the fields of hydrodynamics, fluid dynamics, elasticity and plasticity, which laid the groundwork for her later specialization. her strong foundation in mathematical principles opened doors for her future research pursuits, even in interdisciplinary fields such as power electronics, where mathematical modeling plays a crucial role.

Professional endeavors

Building upon her undergraduate success, doaa pursued her master's degree (m.sc.) in science with a specialization in applied mathematics at sohag university, which she completed in 2024. throughout her postgraduate studies, she deepened her expertise in computational tools such as mathematica, mathcad, matlab, maple, and latex — essential software for mathematical simulation and modeling. Applied Mathematics these skills are also significant in emerging research areas, including power electronics, where simulation and modeling are integral for designing efficient systems. in addition to her academic pursuits, she served as an international reviewer for the journal of mechanics of solids, reflecting her growing reputation in scientific circles.

Contributions and research focus

Doaa's research contributions reflect her applied mathematics specialization, particularly in mechanics and fluid dynamics. her academic focus has been centered around problem-solving in applied sciences, bridging theoretical mathematics with real-world applications. this is especially evident in disciplines such as power electronics, where her mathematical modeling proficiency can address challenges in system optimization and energy conversion efficiency. her pre-master coursework in elasticity, special functions, Applied Mathematics and computational mathematics supports her capacity to contribute to such interdisciplinary scientific domains.

Impact and influence

With 7 published articles, 10 citations, and an h-index of 2 as recorded in scopus, Doaa's research output is steadily gaining recognition in the scientific community. her work has influenced peers in applied mathematics and mechanics, offering solutions that can be extended to practical fields such as Applied Mathematics structural analysis and even aspects of power electronics where fluid and thermal dynamics are of concern. as a reviewer for the journal of mechanics of solids, she plays a role in shaping scholarly discussions and ensuring the quality of scientific research.

Academic cites

Her articles have been cited 10 times, indicating the relevance and applicability of her research outputs. her growing citation record highlights her work's influence in applied mathematics and potentially its application in fields like power electronics, where precise mathematical modeling is increasingly valuable.

Legacy and future contributions

Doaa Mohamed Salah Mohamed's journey in applied mathematics is marked by a commitment to integrating theoretical knowledge with practical applications. she is well-positioned to contribute to interdisciplinary research projects that demand mathematical rigor, such as renewable energy systems and advanced power electronics design. with her strong background in computation, Applied Mathematics simulation, and problem-solving, she is expected to impact future innovations that rely on mathematical optimization and modeling. her academic path hints at future roles not only in research but also in mentoring the next generation of mathematicians and engineers.

Notable Publications

  1. Title: Influence of nonlocal on a rotating thermoelastic medium with diffusion and double porosity
    Authors: Doaa M. Salah; A. M. Abd-Alla; S. M. M. El-Kabeir
    Journal: Scientific Reports

  1. Title: Electromagnetic and heated pulse laser on wave propagation during electrons and holes excitation processes in a rotator semiconductor medium
    Authors: S. M. Abo-Dahab; Doaa M. Salah; Hanan S. Gafel; A. M. Abd-Alla; M. A. Abdelhafez
    Journal: Scientific Reports

  1. Title: Effect of Rotation in a Semiconductor Medium Under Photothermal Theory with Ramp Type Heating
    Authors: A. Abd-Alla; S. Abo-Dahab; Doaa Salah; M. Abdelhafez
    Journal: Sohag Journal of Sciences

  1. Title: Magnetic field and initial stress on a rotating photothermal semiconductor medium with ramp type heating and internal heat source
    Authors: Doaa M. Salah; A. M. Abd-Alla; S. M. Abo-Dahab; F. M. Alharbi; M. A. Abdelhafez
    Journal: Scientific Reports

  1. Title: Magneto-Thermoelastic Semiconductor Medium with Diffusion under the Hyperbolic Two-Temperature Photothermal Waves
    Authors: Doaa M. Salah; A. M. Abd-Alla; S. M. Abo-Dahab; Amnah M. Alharbi; M. A. Abdelhafez
    Journal: Mechanics of Solids

Conclusion

Doaa Mohamed Salah Mohamed’s growing body of work highlights her potential as a significant contributor to applied mathematics and related disciplines. her skills in computational modeling and mathematical analysis equip her to address complex problems in both academia and industry, including those found in power electronics. as she advances in her career, her research and expertise are expected to lead to meaningful innovations and broader impacts in scientific and technological development.

Assoc. Prof. Dr. Bahador Abolpour – Optimization, Simulation and Coding – Excellence in Research

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Assoc. Prof. Dr. Bahador Abolpour - Optimization, Simulation and Coding - Excellence in Research

Sirjan University of technology - Iran

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Summary

Dr. Bahador Abolpour is a distinguished academic with a rare combination of expertise in chemical engineering, aerospace engineering, and computer engineering. his broad educational background and dual ph.d. qualifications have enabled him to contribute meaningfully to various interdisciplinary fields such as transport phenomena, reaction kinetics, ai algorithms, image processing, and numerical modeling. his research has practical applications in modern industries including sustainable materials processing, aerospace navigation, and emerging power electronics technologies used in energy systems and smart grids.

Professionally, as an associate professor at sirjan university of technology, dr. abolpour integrates experimental, computational, and theoretical methods to solve complex engineering problems. his influence spans academia and industry, with numerous citations on platforms like google scholars and researchgate reflecting the impact of his work. his innovative approach brings fresh insights into areas such as process optimization and control systems that increasingly depend on advancements in power electronics.

Early academic pursuits

Bahador Abolpour began his academic journey with a bachelor's degree in chemical engineering from islamic azad university, marvdasht, iran, in 2008. in the same year, he also completed another bachelor's degree in aerospace engineering from payame noor university, shiraz, iran. demonstrating a broad academic curiosity, he further earned a bachelor's degree Optimization, simulation and coding in computer engineering from payame noor university in 2018. this diversified educational foundation laid the groundwork for his interdisciplinary research interests that bridge engineering disciplines such as chemical processes, computing systems, and aerospace technologies.

Professional endeavors

Dr. Abolpour currently serves as an associate professor of chemical engineering at sirjan university of technology. his professional career is marked by a commitment to both teaching and research, focusing heavily on fields such as transport phenomena, reaction kinetics, and numerical methods. with dual ph.d. degrees—one in chemical engineering (shahid bahonar university) Optimization, simulation and coding and another in aerospace engineering (university of tehran)—he embodies a rare blend of expertise that spans multiple engineering domains, including areas relevant to power electronics, a field increasingly intertwined with energy systems and chemical process optimization.

Contributions and research focus

Dr. Abolpour’s research encompasses a diverse range of topics: from experimental methods and reaction modeling in chemical engineering to image processing and ai algorithms in computer science and aerospace. his doctoral work on the instant reduction of magnetite concentrate by synthesis gas to produce sponge iron powder reflects his focus on sustainable materials processing, Optimization, simulation and coding a theme also resonant with the evolving field of power electronics, particularly in energy systems integration and smart grid technologies. another phd thesis on positioning using star images highlights his contribution to aerospace engineering, potentially applicable to satellite-based systems powered by advanced power electronics solutions.

Impact and influence

Dr. Abolpour’s interdisciplinary expertise influences both academic peers and industry practitioners, especially those working at the intersection of chemical engineering and energy systems. his research findings contribute to optimizing industrial processes, enhancing computational modeling techniques, and improving the efficiency of energy-related applications, such as those in power electronics and smart manufacturing systems. his dual role in chemical and aerospace engineering amplifies his influence in designing integrated systems that require cross-disciplinary knowledge.

Academic cites

Dr. Abolpour's scholarly work is reflected in reputable platforms such as google scholars and researchgate, where his publications receive academic attention. his research on transport phenomena and reaction kinetics finds application in chemical process industries, while his contributions to ai algorithms and numerical methods offer value to emerging fields like predictive Optimization, simulation and coding maintenance and autonomous systems—domains that are increasingly adopting power electronics technologies.

Legacy and future contributions

Dr. Abolpour's legacy lies in his ability to bridge seemingly unrelated engineering fields to produce innovative solutions. in the coming years, he aims to explore the integration of advanced modeling techniques, ai-driven control systems, and optimization methods in energy and aerospace applications. such interdisciplinary research is expected to contribute significantly to the Optimization, simulation and coding development of high-performance systems, especially those relying on power electronics for enhanced energy efficiency and system reliability.

Notable Publications

  1. Title: A numerical investigation for lithium extraction from the seawater using hydrodynamic and electromagnetic fields effects in multi-S-shaped channel
    Authors: Bahador Abolpour; Ramtin Hekmatkhah; Hanie Abbaslou
    Journal: Computational Particle Mechanics

  1. Title: Multi-objective Optimization of Nanoparticle Mixture for Improving the Performance of Heat Exchangers
    Authors: Bahador Abolpour; Rahim Shamsoddini
    Journal: Iranian Journal of Science and Technology, Transactions of Mechanical Engineering

  1. Title: Gas–Solid Reaction Kinetic and Mechanism Between Fe3O4 and CH4
    Authors: Bahador Abolpour; M. Mehdi Afsahi
    Journal: Transactions of the Indian National Academy of Engineering

  1. Title: Hydrogen reduction of magnetite concentrate particles
    Authors: Bahador Abolpour; M. Mehdi Afsahi; M. Azizkarimi
    Journal: Mineral Processing and Extractive Metallurgy: Transactions of the Institute of Mining and Metallurgy

  2. Title: Mechanism of reaction of silica and carbon for producing silicon carbide
    Authors: Bahador Abolpour; Rahim Shamsoddini
    Journal: Progress in Reaction Kinetics and Mechanism.

Conclusion

Dr. Abolpour’s career exemplifies the value of multidisciplinary expertise in driving technological progress. his ability to blend concepts from chemical processes, computational intelligence, and aerospace systems paves the way for innovative solutions in critical sectors such as energy and automation. looking forward, his research promises to make lasting contributions to the integration of power electronics in high-efficiency energy systems, aerospace technologies, and industrial automation, shaping the future of engineering research and practice.