Rafael Bernardo Carmona-Paredes | Materials Science | Best Researcher Award

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Dr. Rafael Bernardo Carmona-Paredes | Materials Science | Best Researcher Award

National Autonomous University of Mexico | Mexico

Dr. Rafael Bernardo Carmona-Paredes is a highly respected academic and researcher specializing in hydraulic engineering, water resources management, and dynamic systems. With a career spanning over four decades, he has contributed extensively to both theoretical and applied aspects of water systems engineering. Currently serving at the Universidad Nacional Autónoma de México (UNAM), Dr. Carmona has dedicated his career to advancing hydraulic transients, pumping systems, aquifer recharge, and optimization of water distribution systems. His strong academic background, combined with innovative research and teaching, has enabled him to influence both national and international projects in water management and infrastructure. He has published widely in prestigious journals indexed in Scopus and JCR, authored book chapters, and developed patents related to hydraulic simulation and optimization. Dr. Carmona is also recognized for mentoring young researchers, guiding graduate students, and collaborating with institutions across Latin America and Europe. His professional excellence is further evident in his leadership roles within engineering associations and his frequent participation in international congresses. With a unique balance of academic rigor, applied engineering expertise, and societal impact, Dr. Carmona continues to be a leading figure in advancing sustainable solutions for global water challenges.

Professional Profile

Scopus Profile

Education

Dr. Rafael Bernardo Carmona-Paredes pursued his academic training entirely at the prestigious Universidad Nacional Autónoma de México (UNAM), where he cultivated a multidisciplinary foundation bridging physics, control engineering, and mechanical engineering. He completed his Bachelor’s degree in Physics, which provided him with a solid understanding of fundamental scientific principles, including fluid dynamics, mechanics, and applied mathematics. Motivated by the challenges of engineering applications, he advanced to earn his Master’s degree in Control Engineering, where he specialized in system modeling, dynamic controls, and mathematical optimization. This phase of study laid the groundwork for his future work in hydraulic systems and dynamic behavior of pipelines and water distribution networks. Building upon his expertise, Dr. Carmona earned his Ph.D. in Mechanical Engineering at UNAM, with a dissertation that focused on mathematical modeling for navigation and port water areas. His doctoral research represented an early integration of computational methods with hydraulic and mechanical engineering, pioneering approaches that remain highly relevant today. This combination of degrees reflects his progression from theoretical sciences to applied engineering, equipping him with the interdisciplinary knowledge essential for addressing complex problems in hydraulic engineering and water resources management.

Professional Experience

Dr. Rafael Bernardo Carmona-Paredes has held an illustrious professional career rooted in both academia and applied research. He has been a professor and researcher at the Faculty of Engineering, Universidad Nacional Autónoma de México (UNAM), where he has significantly contributed to teaching, supervising graduate students, and leading research initiatives. Over the years, he has spearheaded numerous national and international projects related to hydraulic engineering, water distribution systems, and aquifer management. His professional expertise extends beyond teaching into consultancy and applied engineering, where he has collaborated with governmental agencies, private organizations, and research institutions in solving water management challenges. Dr. Carmona has also been actively involved in presenting his work at major international forums such as the International Association for Hydro-Environment Engineering and Research (IAHR) and Latin American Hydraulic Congresses, establishing himself as a global voice in water engineering. He has contributed to the development of simulation models for transient flows, optimization techniques for pumping systems, and innovative strategies for aquifer recharge. His professional experience showcases a seamless blend of academic leadership, practical problem-solving, and active participation in the global engineering community, making him a sought-after expert in his field.

Research Interests

Dr. Rafael Bernardo Carmona-Paredes’ research interests focus on advancing the science and practice of hydraulic engineering, with a special emphasis on addressing water resource challenges. His primary area of interest lies in hydraulic transients, where he explores the dynamic behavior of water flow in pressurized systems and pipelines, including the effects of viscoelastic properties. He is deeply engaged in the study of pumping systems, their energy efficiency, and methods for optimizing their operation to achieve sustainable outcomes. Another significant focus of his research is aquifer recharge and groundwater management, where he integrates hydrological modeling with engineering approaches to enhance water security. Dr. Carmona also investigates reservoir operation policies, developing computational models that help optimize water storage and distribution under varying climatic and demand conditions. His work extends into mathematical modeling and control systems, leveraging his interdisciplinary background in physics and engineering to simulate complex water systems. By combining theoretical models with practical applications, his research provides innovative solutions for urban water distribution, infrastructure resilience, and sustainable resource management. His interests align with global efforts to ensure water sustainability, positioning his contributions as both regionally impactful and internationally relevant.

Research Skills

Dr. Rafael Bernardo Carmona-Paredes possesses a rich skill set that spans theoretical, computational, and applied aspects of hydraulic engineering and water resource systems. His expertise in mathematical modeling and simulation allows him to design complex models of hydraulic transients, aquifer recharge, and pumping systems with high accuracy. He is skilled in control systems engineering, applying advanced optimization methods to improve the performance and efficiency of water distribution networks. His proficiency extends to computational fluid dynamics (CFD), enabling him to analyze fluid behavior under transient and steady-state conditions. Additionally, Dr. Carmona demonstrates strong abilities in reservoir operation modeling, particularly in developing strategies for water conservation and sustainable supply. His technical strengths are complemented by his knowledge of hydrological data analysis, dynamic system modeling, and viscoelastic pipeline behavior. Beyond technical skills, he excels in research communication through scholarly publications, book chapters, and patents, as well as in collaborative skills through partnerships with international universities and engineering institutions. His ability to integrate theoretical rigor with practical applications reflects his comprehensive research capabilities, equipping him to address multidisciplinary challenges in water engineering and contribute to sustainable development goals.

Awards and Honors

Over the course of his career, Dr. Rafael Bernardo Carmona-Paredes has been recognized with numerous academic and professional honors for his contributions to hydraulic engineering and water resource management. His pioneering research has led to over 200 scientific publications in high-impact journals and conferences, many of which are indexed in Scopus and JCR, highlighting his influence in the global academic community. He has also authored book chapters and holds patents in hydraulic simulation systems, showcasing his ability to translate research into practical innovations. Dr. Carmona has been invited to present at international forums, including IAHR and Latin American Hydraulic Congresses, where his work has been acknowledged by peers worldwide. His role as a mentor and educator at UNAM has also earned him recognition within academic circles for shaping future generations of engineers and researchers. In addition to academic achievements, Dr. Carmona’s applied engineering solutions for aquifer management and hydraulic transients have earned him commendations from research and professional organizations. Collectively, these awards and honors reflect not only his scholarly excellence but also his significant impact on sustainable water engineering practices, both regionally and internationally.

Publication Top Notes

  1. Unsteady and Steady Flow Control on Pumping Systems — 1990

  2. Damp trend Grey Model forecasting method for airline industry — 2013

  3. Pressure management in water distribution systems using a self-tuning controller to distribute the available potable water with equality — 2018

  4. Protecting a Pumping Pipeline System from Low Pressure Transients by Using Air Pockets: A Case Study — 2019

  5. A Unified Hydrogeological Conceptual Model of the Mexico Basin Aquifer after a Century of Groundwater Exploitation — 2022

  6. Challenges and Experiences of Managed Aquifer Recharge in the Mexico City Metropolitan Area — 2022

  7. Use of evolutionary computation and guide curves to optimize the operating policies of a reservoir system established to supply drinking water — 2023

  8. Modeling Viscoelastic Behavior of HDPE Pipes Subjected to a Diametral Load Using the Standard Linear Solid Model — 2025

Conclusion

Dr. Rafael Bernardo Carmona-Paredes stands out as a visionary researcher and academic leader in the field of hydraulic engineering and water resource management. His academic journey from physics to mechanical engineering, paired with his practical expertise, has positioned him as a pioneer in developing innovative solutions for water-related challenges. His contributions extend from theoretical models of hydraulic transients to practical strategies for aquifer recharge and water distribution optimization, bridging the gap between science and application. Beyond his research, Dr. Carmona’s dedication to teaching and mentoring reflects his commitment to shaping future engineers, while his collaborations with global institutions highlight his influence beyond national borders. His vast publication record, patents, and recognition at international forums serve as a testament to his academic excellence and societal impact. Moving forward, his continued focus on sustainability, technological innovation, and global collaboration promises to further strengthen his contributions to water security and hydraulic engineering. For his pioneering achievements, leadership, and dedication, Dr. Rafael Bernardo Carmona-Paredes is rightfully considered a leading figure in his field and a deserving candidate for distinguished academic recognition.

Aenas Laith Ali | Materials Science | Best Academic Researcher Award

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Dr. Aenas Laith Ali | Materials Science | Best Academic Researcher Award

Babylon University | Iraq

Enas Laith Ali Al-Dulaimi is an accomplished researcher and materials engineer from Iraq, recognized for her expertise in alloy development, corrosion resistance, and aerospace materials. With a strong academic foundation in metallurgy and materials engineering, she has contributed significantly to advancing knowledge in the areas of alloy processing, microstructural analysis, and mechanical property improvement. Her work is deeply rooted in both academic research and practical laboratory investigations, bridging the gap between theoretical insights and industrial applications. Over the years, she has developed a strong research portfolio, including multiple publications in internationally indexed journals, book chapters, and conference proceedings. Enas has also demonstrated her leadership skills by guiding students, contributing to academic projects, and engaging in training programs to share her expertise. Her work spans various advanced techniques, including X-ray diffraction, optical microscopy, and corrosion testing methods, positioning her as a specialist in material characterization and alloy performance evaluation. In addition to her academic contributions, she has earned professional certifications and participated in interdisciplinary collaborations, reflecting her commitment to continuous learning and professional growth. Her research excellence, combined with a strong vision for innovation and societal impact, makes her a valuable contributor to the global scientific and engineering community.

Professional Profile

Scopus | Google Scholar

Education

Enas Laith Ali Al-Dulaimi holds a distinguished academic background in materials engineering, with both undergraduate and postgraduate degrees from the University of Babylon, Iraq. She earned her Bachelor’s degree in Metallurgical and Materials Engineering (Metals Division), where she graduated with high distinction, ranking fourth in her department. During her undergraduate studies, she completed a major project on improving corrosion resistance in Nitinol alloys through surface treatment techniques, which demonstrated her early research capabilities and passion for materials development. Building on this foundation, she pursued a Master’s degree in Metallurgical and Materials Engineering (Metals Division) at the University of Babylon. Her Master’s research was focused on the role of alloying techniques in enhancing the properties of Al-Li alloys used in aerospace industries, which showcased her ability to address complex engineering challenges with real-world applications. This work contributed valuable insights into the aerospace field, particularly regarding alloy strength, durability, and resistance to corrosion. Alongside her formal education, she has pursued continuous learning through professional certifications and specialized training, including programs on Python programming, artificial intelligence, electronic teaching methods, and advanced laboratory practices, ensuring her academic profile is well-rounded and internationally competitive.

Professional Experience

Enas Laith Ali Al-Dulaimi has accumulated extensive professional experience as a materials engineer, academic researcher, and laboratory specialist at the University of Babylon. In her role, she has actively contributed to teaching, guiding students in practical experiments, and assisting in advanced laboratory investigations related to metallurgy and materials characterization. Her hands-on experience covers mechanical testing, hardness, tensile and compression strength evaluations, as well as corrosion resistance studies, all of which are essential for assessing material performance under different industrial conditions. Beyond her academic role, she has served as a research associate in various collaborative projects, particularly in developing advanced alloys for aerospace and industrial applications. Enas is skilled in operating modern laboratory instruments such as optical microscopes, X-ray diffraction systems, and metallurgical testing setups, which have been instrumental in her research output. Her professional contributions also extend to writing academic reports, research papers, and technical documents that bridge scientific knowledge with industrial relevance. Additionally, she has played a role in organizing academic seminars and workshops, enabling knowledge exchange between researchers and students. By combining teaching, applied research, and laboratory training, she has developed a strong professional profile that highlights her technical expertise, leadership qualities, and dedication to advancing material sciences.

Research Interests

The research interests of Enas Laith Ali Al-Dulaimi lie primarily in the field of advanced materials engineering, alloy development, and aerospace materials applications. She is particularly focused on studying the corrosion behavior, microstructure, and mechanical properties of Al-Li alloys, Ni-Ti alloys, and high-strength steels, which are widely used in aerospace, medical, and industrial sectors. Her work emphasizes the role of alloying elements, surface treatment, and thermal processing techniques in improving the durability and performance of these materials. She has conducted detailed studies on the effect of micro-alloying with elements such as Ag, Ge, Mg, and Cu, contributing new knowledge on how these additions enhance alloy strength, toughness, and corrosion resistance. In addition to alloy development, she is interested in nanomaterials and advanced composites for engineering applications, particularly those with biomedical and aerospace potential. Enas is also engaged in interdisciplinary research that integrates statistical modeling, materials characterization, and experimental testing methods to provide comprehensive solutions to engineering challenges. With a vision to expand her work globally, she aims to further explore sustainable materials development, environmentally friendly alloys, and innovative processing techniques, ensuring that her research contributes to both industrial advancement and societal progress.

Research Skills

Enas Laith Ali Al-Dulaimi possesses a wide range of technical, analytical, and academic research skills that make her a highly competent materials engineer and researcher. She is proficient in conducting structural and microstructural analysis using X-ray diffraction (XRD), optical microscopy, and scanning techniques, which are critical for evaluating alloy composition and performance. Her expertise extends to mechanical property testing, including hardness, tensile, fracture toughness, and corrosion resistance measurements. Enas is skilled in experimental design, statistical data analysis, and technical report writing, supported by her proficiency in tools such as SPSS, Microsoft Excel, and other statistical platforms. She is also experienced in 3D design and modeling using AutoCAD and Home Design 3D, complementing her engineering expertise with design capabilities. Her software knowledge includes Microsoft Office Suite, Adobe Photoshop, and presentation design tools, enhancing her ability to present research findings effectively. Beyond technical skills, she has strong abilities in academic writing, publishing in peer-reviewed journals, and presenting at conferences. Her personal skills include critical thinking, teamwork, problem-solving, and mentoring younger researchers, making her not only an independent investigator but also a collaborative academic professional with a strong commitment to continuous learning and innovation.

Awards and Honors

Throughout her career, Enas Laith Ali Al-Dulaimi has received several academic honors, certifications, and professional recognitions that underscore her contributions to the field of materials engineering. She has published multiple papers in Scopus and IEEE-indexed journals, including IOP Conference Series: Materials Science and Engineering, Journal of Engineering and Applied Sciences, and International Journal of Mechanical Engineering and Technology (IJMET), with her works receiving citations from international researchers. In addition to journal publications, she has authored and co-authored book chapters on alloy development and microstructure analysis, demonstrating her contribution to academic literature. Enas has also earned professional certifications, including the prestigious TOT (Certified Trainer) accreditation, a University of Baghdad certification in E-learning and Zoom teaching platforms, and recognition from the American Association of Neurological Surgeons (AANS) for intensive care management training. She has further enhanced her international profile by completing Udemy certifications in Python programming, artificial intelligence, and advanced presentation design. These achievements reflect not only her academic and research excellence but also her commitment to continuous professional development. Her awards and recognitions highlight her growing influence in the academic community and her readiness to take on more impactful global research roles.

Publication Top Notes

  • The Effects of Chemical Oxidation on Corrosion Behavior of Ni-Ti Alloy — 2021 — 5 citations

  • Experimental and theoretical analysis of bismuth Co-doped erbium-based hydroxyapatites — 2025 — 1 citation

  • Microstructure and mechanical properties of Ag and Ge multi-micro alloyed Al-(3.2) Cu-(2) Li-(0.6) Mg alloys — 2019 — 1 citation

  • Influence of Alloying Element on Corrosion Behavior of (Al-Li) Alloys used in Aerospace Industries — 2019 — 1 citation

  • Comprehensive analysis of the impact of iron and terbium co-dopant levels on the structural, thermal, and spectroscopic properties of hydroxyapatite — 2025

  • Optimizing the welding performance of 2024-T351 aluminum alloy through friction stir welding technology — 2024

  • Investigation of the effect of chitosan nanoparticles on MDR Bacillus cereus isolated from pasteurized milk — 2024

Conclusion

In conclusion, Enas Laith Ali Al-Dulaimi represents a dynamic and forward-thinking researcher whose contributions to materials engineering, alloy development, and aerospace applications position her as a rising leader in her field. Her academic journey, professional experience, and diverse research portfolio demonstrate a clear commitment to advancing knowledge while ensuring practical applications that benefit industry and society. She has successfully combined strong technical expertise with academic leadership, mentorship, and professional training, making her profile well-rounded and globally relevant. Through her publications, certifications, and collaborations, she has already built a foundation for international recognition. However, her vision goes further—she aims to expand her research on sustainable and advanced alloys, participate in global collaborations, and contribute to the development of environmentally friendly materials for future generations. With her blend of academic excellence, professional achievements, and innovative mindset, Enas is highly deserving of recognition as a Best Researcher Award nominee. Her ability to bridge academic research with practical impact reflects her true potential as a scientist, educator, and global contributor to the engineering community.