Mengge Li | Experimental Design | Best Researcher Award

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Ms. Mengge Li | Experimental Design | Best Researcher Award

PhD candidate | Shenyang Jianzhu University | China

Ms. Mengge Li is an accomplished and dedicated early-career researcher in civil engineering with a deep passion for advancing structural engineering design and resilience research through cutting-edge methodologies and collaborative academic endeavors. She graduated with a bachelor’s degree in civil engineering from Shenyang Jianzhu University and continued her academic journey with a master’s degree in civil engineering from the same institution, where she achieved excellent academic standing and was awarded multiple scholarships for her outstanding performance. Currently, she is pursuing her Ph.D. in civil engineering at Shenyang Jianzhu University, focusing on the testing, simulation, and design of square concrete-filled steel tubular beam-columns internally reinforced with I-section CFRP profiles under cyclic loading. Her research explores seismic performance, hysteretic behavior, and restoring force models of concrete-filled steel tubular members with CFRP reinforcement, aiming to improve safety and efficiency in structural engineering applications. Ms. Mengge Li has authored 3 documents, 2 Citations, 1 h-index, which have been published in reputed sources such as Engineering Structure (Q1), Journal of Building Structures, and proceedings of the 15th International Conference on Fibre-Reinforced Polymers for Reinforced Concrete Structures (FRPRCS-15) & the 8th Asia-Pacific Conference on FRP in Structures (APFIS-2022). Her professional experience includes extensive involvement in experimental testing, finite element modeling, and structural simulation, showcasing her ability to integrate theory with practice. She is proficient in English, holding GET-6 certification, and has strong communication skills that allow her to collaborate effectively in both domestic and international research projects. Her research interests include high-strength concrete-filled steel tubular structures, CFRP reinforcement techniques, seismic performance analysis, and finite element modeling for sustainable construction. Ms. Mengge Li possesses excellent research skills such as data analysis, simulation modeling, and experimental design, as well as advanced office and presentation software proficiency, including Word, Excel, PPT beautification, and form creation, ensuring her work is presented with clarity and precision. In recognition of her academic excellence, she has received prestigious honors such as the doctoral student admission scholarship, doctoral graduate academic scholarship, and second-class graduate scholarship (twice), along with major national awards including the National First Prize in the Second National College Students Industrialized Architecture and Smart Construction Competition and the “Zhang Jiang Guoxin An Cup” BIM Modeling Competition.

Profile:  Scopus

Featured Publications

  1. Li, M. (2022). Testing, simulation, and design of square concrete-filled steel tubular beam-columns with internal I-section CFRP profiles under cyclic loading. Engineering Structure.

  2. Li, M. (2022). Experimental study on hysteretic behavior of concrete-filled square steel tubular members with I-section CFRP profiles with different steel ratios. Journal of Building Structures.

  3. Li, M. (2022). Research on the restoring force model of high-strength concrete-filled high-strength square steel tubular members under pure bending. Journal of Shenyang Jianzhu University (Natural Science).

  4. Li, M. (2022). Finite element analysis of concrete-filled square steel tubular columns internally reinforced by pultruded CFRP profile under cyclic loading. Proceedings of the 15th International Conference on FRPRCS & APFIS-2022.

  5. Li, M. (2022). Research on seismic performance of concrete-filled square steel tubular columns with CFRP profiles. Industrial Construction.

 

Moses Hamed | Experimental Design | Best Researcher Award

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Mr. Moses Hamed | Experimental Design | Best Researcher Award

Mr. Moses Hamed | Experimental Design | Head of Research Unit | Afe Babalola University | Nigeria

Mr. Moses Hamed is an accomplished Medical Laboratory Scientist and dedicated researcher specializing in histopathology and cytology. With a0 strong background in medical diagnostics and translational research, he has consistently contributed to advancing the understanding of male infertility, reproductive toxicology, and the molecular mechanisms of disease. His career reflects a commitment to improving global health outcomes through evidence-based research, collaborative studies, and mentorship of young scientists. Currently serving as the Head of the Research Unit at The Brainwill Laboratory Ltd., Mr. Hamed leads innovative projects that bridge basic science with clinical applications. His scholarly work has earned him recognition as one of the most productive medical researchers in Nigeria, positioning him as a thought leader and innovator in his field.

Professional Profile 

Education

Mr. Moses Hamed has completed extensive academic training, holding a Master of Science degree in Medical Laboratory Science with a focus on histopathology and cytology, as well as a Postgraduate Diploma in Medical Laboratory Science. His academic journey has been characterized by excellence, curiosity, and a commitment to expanding his scientific expertise. He also earned a Bachelor of Medical Laboratory Science, which laid the foundation for his professional practice and early research interests. His educational progression reflects not only intellectual rigor but also a deep passion for improving clinical diagnostics and advancing laboratory medicine as a cornerstone of healthcare.

Experience

Throughout his career, Mr. Moses Hamed has demonstrated leadership and innovation in both clinical and research settings. As the Head of Research at The Brainwill Laboratory Ltd., he oversees experimental design, data analysis, and collaborative projects that focus on reproductive health and endocrine disorders. He previously served as a Medical Laboratory Scientist at reputable diagnostic centers and hospitals, where he gained hands-on expertise in laboratory techniques, quality assurance, and patient-focused diagnostics. His work has contributed to improving laboratory standards and advancing molecular approaches to diagnosis, with a particular emphasis on infertility and toxicology research.

Research Interest

Mr. Moses Hamed’s research interests are deeply rooted in reproductive health, toxicology, and endocrine disruption. His studies have explored the effects of pesticides, psychoactive substances, and environmental toxins on male fertility parameters, providing valuable insights into public health risks and preventive strategies. He is also engaged in work addressing the pathophysiology of infertility and the development of innovative diagnostic protocols. His interest in translational research enables him to bridge the gap between laboratory discoveries and clinical applications, making his work highly impactful for patient care and policy development.

Award

Mr. Moses Hamed has been recognized with several honors, including a prestigious Founder’s Award for academic and professional excellence. He was also acknowledged by Elsevier as one of the Top 500 authors by scholarly output in Nigeria, a testament to his consistent research productivity and contribution to the scientific community. These awards highlight his dedication to advancing knowledge, mentoring future scientists, and shaping the future of medical laboratory science through innovative and impactful work.

Selected Publication

Neglected Tropical Diseases and Female Infertility: Possible Pathophysiological Mechanisms (2025, 42 citations).

Impact of Organophosphate Pesticides Exposure on Human Semen Parameters and Testosterone: A Systematic Review and Meta-Analysis (2023, 55 citations).

Psychoactive Drugs and Male Fertility: Impacts and Mechanisms (2023, 37 citations).

Pathophysiology and Management of Testicular Ischemia/Reperfusion Injury: Lessons from Animal Models (2024, 28 citations).

Conclusion

Mr. Moses Hamed stands out as a dedicated researcher and healthcare professional whose contributions to medical laboratory science have significantly advanced reproductive health research and diagnostic innovation. His educational background, leadership experience, and robust publication record make him an exemplary candidate for recognition. His work not only strengthens the scientific community but also provides tangible benefits to society by addressing pressing health challenges. With his proven capacity for impactful research, mentorship, and collaboration, Mr. Hamed is well-positioned to continue shaping the future of laboratory medicine and to expand his influence through international partnerships and innovative scientific endeavors.

 

Ajad Shrestha | Experimental Design | Innovative Research Award

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Ajad Shrestha | Experimental Design | Innovative Research Award

Mr Ajad Shrestha, Global Engineering Associates, P., Ltd. Nepal

Publication profile

google scholar

Education

Ajad Shrestha holds a Master’s degree in Civil and Hydraulics Engineering from Tongji University (2021–2024) and a Bachelor’s degree in Civil Engineering from the Institute of Engineering, Thapathali Campus (2015–2019). His educational background has provided him with a solid foundation in structural engineering, which is critical for innovative research in this field.

Research Projects

Ajad has contributed to multiple significant research projects, such as studying the use of recycled polyethylene terephthalate (PET) in 3D printable mortar, investigating the flexural and shear performance of HS-ECC beams, and exploring autogenous shrinkage mitigation in high-strength engineered cementitious composites (HS-ECC). His ability to manage complex variables and deliver measurable results, like reducing shrinkage by 40%, showcases his technical expertise and problem-solving skills.

Work Experience

Ajad has substantial research experience as a Research Student at Tongji University, focusing on HS-ECC material and structural applications. He also worked as a Civil Engineer and Research Assistant at Global Engineering Associates, gaining hands-on experience in FEM analysis, bridge damage research, and structural calculations. This combination of academic and professional experience makes him a strong candidate for the Innovative Research Award.

Publications

Ajad’s contributions to scholarly publications are extensive, including papers on high-performance concrete, machine learning models, and advanced structural analysis. His research on the mechanical properties of cementitious composites and UHPC highlights his commitment to developing innovative, real-world solutions.

Research focus

The research focus of this individual is on advanced materials in civil engineering, particularly engineered cementitious composites and ultra-high-performance concrete (UHPC). Their work explores the mechanical and shrinkage properties of these materials, emphasizing the use of iron sand to develop high-strength cementitious composites. Additionally, they employ hybrid machine learning models to predict the mechanical properties of UHPC, validated through experiments. This interdisciplinary approach integrates material science, construction technology, and AI-driven predictive modeling to enhance the performance and sustainability of modern construction materials. 🏗️🔬💡

Awards and Scholarships

Ajad has earned the Departmental Scholarship from Tongji University, a recognition based on his academic performance and research contributions. This accolade, along with his proven track record in research, reflects his dedication and potential for future innovation.

Conclusion

Based on Ajad Shrestha’s extensive research in structural engineering, innovative use of materials like recycled PET and HS-ECC, and his solid academic background, he appears to be a highly suitable candidate for the Innovative Research Award. His demonstrated ability to solve complex problems, combined with a focus on real-world applications, makes him a promising innovator in the field of civil engineering.

Publication top notes

Development of high-strength engineered cementitious composites using iron sand: Mechanical and shrinkage properties

Hybrid machine learning model to predict the mechanical properties of ultra-high-performance concrete (UHPC) with experimental validation

 

Marwa Ibrahim | Experimental Design | Women Researcher Award

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Marwa Ibrahim | Experimental Design | Women Researcher Award

Assoc Prof Dr Marwa Ibrahim, National research centre NRC, Egypt

Dr. Marwa Ibrahim is an accomplished academic and researcher in Mechanical Power Engineering with a Ph.D. from Cairo University. Her expertise includes renewable energy and smart grids, with notable work on micro-grid systems and wind turbine optimization. She is an Assistant Professor at the National Research Centre, Egypt, and has held various roles, including quality assurance and mechanical engineering positions. Dr. Ibrahim is certified in project planning, safety, and quality management. Her projects include biodiesel production and hybrid renewable energy systems. She has participated in numerous international conferences and workshops on renewable energy. 🌍🔋🌞

Publication profile

Scopus

Education

Dr.Marwa Ibrahim, earned a PhD in Mechanical Power Engineering from Cairo University in January 2018, with a focus on “Design and Performance Evaluation of Renewable Energy Based Micro-Grid Systems with Energy Storage” 🌍🔋. He holds an M.Sc. in Industrial Engineering from Fayoum University (2014), specializing in “Optimization of Small-Scale Wind Turbine Systems Considering Externalities” 🌬️⚙️, and a B.Sc. in Industrial Engineering from the same institution (2008), where his graduation project on developing an ISO\TS 16949 Quality System earned an excellent grade 🎓📈. His work centers on renewable energy and industrial optimization.

Experience

Dr. Marwa Ibrahim, is an accomplished mechanical engineer at the Mech. Eng. Department, NRC, where they have served as an Assistant Professor since 2018. Their journey began as a Researcher Assistant in 2010, evolving through roles as Assistant Researcher (2014-2017) and Mechanical Engineer (2009-2010). Before joining NRC, they honed their expertise as a Quality Assurance Engineer at ICDI Company, Egypt (2008-2009). With a robust background in research and quality assurance, Dr. Marwa Ibrahim, has made significant contributions to the field of mechanical engineering. 🛠️📊

Projects

At the National Research Centre, Egypt, He contributed to several innovative projects. As a Co-PI on the 2019-2021 project for designing and testing a continuous biodiesel production device from Egyptian Jatropha seeds, He played a key role. He was also part of the STDF project optimizing hybrid renewable systems for tourism facilities in Fayoum (2019). He involvement extended to projects like the development of a mini car running on alternative fuels (2018-2020) and hybrid energy systems for Nubariyyah (2017-2020). Additionally, He worked on designing presses for oil extraction from Jatropha (2016-2019) and exploring hydrogen fuel from solar energy (2016-2019). 🌱🔧🚗🔋🌞

Research focus

Dr. M.M. Ibrahim’s research primarily focuses on optimizing and managing renewable energy systems, particularly wind and solar energy. His work involves evaluating technical and economic aspects of these systems to enhance efficiency and sustainability. Key areas include hybrid renewable energy systems, wind off-grid applications, and comparative studies between solar and wind energy. Ibrahim also explores innovative applications such as smart energy management for solar water heating and grid-connected solar PV systems for electric vehicle charging. His studies contribute to improving renewable energy solutions, particularly in remote and urban settings. 🌬️☀️💡

Publication top notes

Energy management strategies of hybrid renewable energy systems: A review

Optimization of wind off-grid system for remote area: Egyptian application

Technical and Economic Comparison between Solar and Wind Energy Supplying Desalination System

Electricity production and comparative analysis for wind availability power potential assessment at four sites in Egypt

EXPERIMENTAL AND THEORETICAL STUDY OF SMART ENERGY MANAGEMENT SOLAR WATER HEATING SYSTEM FOR OUTDOOR SWIMMING POOL APPLICATION IN EGYPT

Investigation of a grid-connected solar pv system for the electric-vehicle charging station of an office building using pvsol software

Sustainable technical design and economic–environmental analysis of SMART solar street lighting system in Giza City, Egypt

NUMERICAL THERMAL STUDY OF HEAT TRANSFER ENHANCEMENT IN LAMINAR-TURBULENT TRANSITION FLOW THROUGH ABSORBER PIPE OF PARABOLIC SOLAR TROUGH COLLECTOR SYSTEM

Feasibility and performance analysis of grid-tied solar photovoltaic systems using pvsyst simulation package of pharmaceutical factory case study in Egypt