Taofiq Mohammed | Engineering | Research Excellence Award

Published on by Environmental Scientists

Mr. Taofiq Mohammed | Engineering | Research Excellence Award

Mr. Taofiq Mohammed | Engineering | Graduate Researcher at Georgia Institute of Technology | United States

Mr. Taofiq Mohammed is a dedicated Ph.D. student at the Georgia Institute of Technology (Georgia Tech), specializing in science and engineering research with a strong focus on sustainable construction materials and advanced concrete technologies. Mr. Taofiq Mohammed holds a solid educational background that has prepared him for high-impact interdisciplinary research in civil and materials engineering, with advanced doctoral training emphasizing geopolymer concrete, fiber-reinforced composites, and environmentally responsible construction solutions.

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Featured Publications:

Effect of Oil Palm Broom Fiber on the Mechanical Properties of Rice Husk Ash–Blended Concrete
– Recent Progress in Materials, 2025
Recent Advances in Fly Ash- and Slag-Based Geopolymer Cements

– Sustainability, 2025
Calcium Carbide Residue as a Supplementary Precursor in Geopolymer Binders

– Frontiers in Materials, 2025
Transportation Infrastructure Health Monitoring

– IntechOpen, 2025

 

Shaokun Yang | Engineering | Research Excellence Award

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Dr. Shaokun Yang | Engineering | Research Excellence Award

Dr. Shaokun Yang | Engineering | Lecturer at Army Engineering University of PLA | China

Dr. Shaokun Yang is an emerging researcher in the field of geotechnical and civil engineering, with a growing scholarly profile focused on advanced soil mechanics, foundation engineering, and the application of innovative materials and theoretical models to complex ground conditions. Dr. Shaokun Yang’s academic education has been grounded in engineering sciences related to geotechnical engineering and infrastructure development, providing a strong theoretical and analytical foundation for research in soil behavior, stress–strain relationships, and ground improvement technologies. Professionally, Dr. Shaokun Yang has contributed to peer-reviewed international journals through collaborative research that addresses practical and theoretical challenges in civil and marine engineering, demonstrating an ability to integrate experimental investigation with analytical interpretation. Dr. Shaokun Yang’s professional experience is reflected in published journal articles that examine the consolidation theory and application of double-layered foundations for fiber-reinforced solidified lightweight soil, as well as the dynamic properties of dredger fill under coupled effects of initial stress and principal stress rotation, indicating expertise in both static and dynamic soil behavior. The research interests of Dr. Shaokun Yang center on soil consolidation mechanisms, reinforced soil systems, lightweight soil technologies, dredger fill behavior, stress coupling effects, and the performance of foundations under complex loading conditions, with particular relevance to building foundations and marine geotechnical engineering.

Academic Profile: ORCID

Featured Publications:

 

 

Romulus Mawa | Engineering | Best Researcher Award

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Dr. Romulus Mawa | Engineering | Best Researcher Award

Dr. Romulus Mawa | Engineering | China University of Geosciences | China

Dr. Romulus Mawa Tuzingila is an emerging researcher and Ph.D. candidate specializing in geological and petroleum engineering with a focus on rock mechanics, geomechanics, shale reservoir characterization, and subsurface energy resources, currently affiliated with the China University of Geosciences in Wuhan, China, where he contributes to experimental, analytical, and computational research within the Department of Petroleum Engineering and related key laboratories; he received his foundational education in earth sciences and petroleum exploration (with preliminary degrees completed prior to his doctoral studies, details are drawn from his extensive research output and academic profiles), and over the course of his academic career he has gained significant research experience working on multidisciplinary projects involving experimental rock physics, petrophysical characterization of organic-rich shale, hydraulic fracturing mechanisms, and CO₂–rock interactions as relevant to unconventional reservoir development and carbon storage strategies, conducting laboratory experiments such as uniaxial and triaxial compression, brittleness modeling, and mineralogical analysis using tools like X-ray diffraction and nuclear magnetic resonance, which have shaped his strong methodological and analytical expertise in geomechanical testing and numerical modeling; Dr. Tuzingila’s professional experience extends to international collaborations with co-authors from China and the Democratic Republic of the Congo and includes contributions to both high-impact scholarly journals and engineering society proceedings, demonstrating his ability to bridge fundamental science with applied energy engineering challenges, and his research interests center on the mechanical behavior of organic-rich marine shales, the effects of mineralogy and anisotropy on fracture propagation, and the implications of CO₂ geological storage and enhanced hydrocarbon recovery, supported by a robust set of research skills that range from experimental design and rock physics modeling to data interpretation and scientific writing; his scholarly contributions have attracted citations in related fields, reflecting peer recognition, and his awards and honors include acknowledgment of his peer-reviewed publications and participation in international research networks, underscoring his commitment to advancing knowledge in geomechanics and energy resources; overall, Dr. Tuzingila’s work continues to impact the understanding of subsurface mechanics and reservoir engineering, positioning him as a notable researcher in earth and energy sciences.

Academic Profile: Scopus

Featured Publications:

Tuzingila, R. M., et al. (2026). Machine learning to estimate the brittleness index of organic shale: Case study of Marcellus Shale formation. Journal of Energy Engineering.

 

Giuseppe La Ferla | Engineering | Best Researcher Award

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Prof. Dr. Giuseppe La Ferla | Engineering | Best Researcher Award

Professor | Polytechnic University of Madrid | Spain

Prof. Dr. Giuseppe La Ferla is an accomplished architect, researcher, and educator whose career bridges practice and academia. With expertise in construction and architectural technology, he has contributed to sustainable building design and energy-efficient façade systems. Over the years, he has collaborated on international projects across Europe, the Middle East, and South America, combining technical innovation with environmental responsibility. His research emphasizes adaptive façades, radiant glass technologies, and smart energy regions, reflecting a strong commitment to sustainability. Currently, he serves as Professor at the Polytechnic University of Madrid, where he mentors future architects and leads research in advanced construction methods.

Professional Profile

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Education

Prof. Dr. Giuseppe La Ferla pursued advanced studies in architecture and technology, earning his Master’s degree in Architecture from the Polytechnic University of Turin and later obtaining professional registration at Mediterranean University di Reggio Calabria. Driven by a passion for sustainable design, he completed a PhD at the Polytechnic University of Madrid, presenting a thesis on the thermal behavior of radiant glass in glazed envelopes. His education reflects a blend of design creativity and technical rigor, supported by international training programs and scholarships, including Erasmus studies in Valencia. This academic foundation paved the way for his later teaching, research, and professional practice.

Experience

Prof. Dr. Giuseppe La Ferla has accumulated extensive professional and academic experience. For over two decades, he worked as Lead Architect at Chapman Taylor Spain, managing large-scale international projects that ranged from urban masterplans to bioclimatic building studies. His architectural portfolio spans Europe, the Middle East, and Latin America, where he developed sustainable strategies for complex urban and commercial developments. Parallel to practice, he embraced academia, teaching at the Polytechnic University of Madrid and other European institutions. His combined expertise as a practitioner and professor allows him to integrate real-world architectural challenges into academic research and teaching on construction technologies.

Research Interests

His research interests focus on energy efficiency and technological innovation in building envelopes. He has specialized in adaptive façades, radiant glass systems, and sustainable design strategies, seeking to merge thermal performance with architectural quality. His doctoral work explored radiant glass as a tool for improving comfort and reducing energy consumption. He also contributed to European research programs under COST, including Smart Energy Regions and Adaptive Façades Network, engaging in collaborative studies that connect policy, technology, and user experience. Prof. Dr. Giuseppe La Ferla continues to investigate advanced façade systems, combining computational modeling, experimental monitoring, and sustainable construction methodologies.

Awards

Throughout his career, Prof. Dr. Giuseppe La Ferla has received recognition for his contributions in architecture and sustainability. He was honored with design awards in international competitions such as the Regeneration of Nieporęt Marina and Riviera dei Ciclopi, reflecting his creative architectural vision. His collaboration on participative forest management won the prestigious UN-Habitat Dubai International Best Practice distinction. He has also earned academic honors, including an Outstanding Contribution in Reviewing for the journal Sustainable Cities and Society. These awards highlight his dual achievements in professional design excellence and research impact, confirming his reputation as an innovative and socially engaged architect.

Top Noted Publications

Title: Design of a Shipping Container-Based Home: Structural, Thermal, and Acoustic Conditioning
Year: 2025

Title: Radiant glass façade technology: thermal and comfort performance based on experimental monitoring of outdoor test cells
Year: 2020
Cited by: 17

Title: A geometric play facing the Mediterranean. The Teulada-Moraira auditorium
Year: 2012

Title: Network Movement. The Magic Box in Madrid
Year: 2011

Title: Residential complex in the Sanchinarro Urban Development Plan in Madrid
Year: 2011

Conclusion

Prof. Dr. Giuseppe La Ferla career demonstrates a rare blend of academic rigor, international collaboration, impactful teaching, and real-world architectural practice. His contributions to sustainable building technologies, radiant glass research, and adaptive façades position him as a strong candidate for the Best Researcher Award, with clear potential to further consolidate his influence as a leading researcher in construction and architectural technology.

Mr. Pranjal Khakse | Engineering | Best Researcher Award

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Mr. Pranjal Khakse | Engineering | Best Researcher Award

Student / Research Assistant, University of Michigan. United States

Mr. Pranjal Khakse, an Engineering student and Research Assistant at the University of Michigan, United States, has been honored with the prestigious Best Researcher Award 🏆. His dedication to advancing engineering research has set him apart, showcasing his exceptional skills and innovative mindset. Pranjal’s contributions to the academic community have been invaluable, and this accolade reflects his commitment to excellence and his passion for pushing the boundaries of knowledge 🌟. Congratulations to Mr. Khakse for this remarkable achievement! 🎉

PROFILE

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EDUCATION

Mr. Pranjal Khakse is currently pursuing a Master of Science in Mechanical Engineering with a concentration in Manufacturing & Automation at the University of Michigan, Ann Arbor 🌟. He has maintained an impressive GPA of 4.0/4.0 📚. His coursework includes Robotics & Product Design, Smart Manufacturing Systems, Smart Additive Manufacturing Systems, and Nanofabrication & Nanomanufacturing Technologies 🤖. Previously, he earned his Bachelor of Technology in Mechanical Engineering from the National Institute of Technology Tiruchirappalli in Tamil Nadu, India, with a GPA of 3.87/4.0 🎓. His studies there covered Engineering Mechanics, Additive Manufacturing, Mechanics of Machines, and Design of Machine Elements 🛠️.

WORK EXPERIENCE

Mr. Pranjal Khakse is currently a CTO Trainee at Utilidata through the U-M Perot Jain TechLab Electrification Cohort (Jan 2024 – Present) ⚡. He is developing an AI model with Nvidia for grid optimization using the Jetson Orion Performance chip series 🤖. Pranjal analyzes data from Ford Mach E and Tesla to train a universal EV charging algorithm and builds real-time visualization models for the AI platform Karman using Infogram, Looker, and DATABOX 📊. Previously, as a Research Assistant at the Additive Manufacturing Research Laboratory, University of Regina (June 2022 – August 2022) 🧪, he engineered a 3D printing system for liquid metal-based microwire and designed a Co-extruder nozzle using SolidWorks, funded by Mitacs Globalink and NSERC Canada 🏅.

RESEARCH

Mr. Pranjal Khakse is actively involved in multiple innovative projects at the University of Michigan Ann Arbor. In the Multidisciplinary Design Program, he is designing an Axial Flux Hubless Generator, engineering modular components, and developing a SolidWorks housing for over 200 electronic parts ⚙️. In the Precision Systems Design Laboratory, he is working on an upper limb prosthetic design, creating efficient prosthetic fingers and a testing bench for force validation 💪. As the project lead for a lightweight robotic gripper, he achieved industry-grade performance and won the Rackham Graduate Student Research Grant 🏆. At NIT Tiruchirappalli, he developed a cable-driven robotic system for windmill blade maintenance, earning the Best Paper Award at ICRoM’22 🌬️.

LEADERSHIP EXPERIENCE

Mr. Pranjal Khakse served as the Innovation and Development Head, Mentor, and Product Designer for the Designers’ Consortium, the Official Innovation & Product Design Society at NITT, from June 2020 to May 2023 🚀. He led the club’s external affairs and oversaw its annual development by providing technical support for ongoing projects 🔧. Additionally, Pranjal coordinated a SIMTEK-affiliated Certified SolidWorks training program for over 500 freshman undergraduates, enhancing their skills in product design and development 📐. His leadership and dedication significantly contributed to the growth and success of the society 🌟.

SKILLS & ACHIEVEMENTS 

Mr. Pranjal Khakse possesses an impressive array of technical skills, including proficiency in SolidWorks, AutoCAD, Fusion 360, ABAQUS, COMSOL (Heat Transfer), nTopology, Microsoft Office, MATLAB, Simulink, Ansys, Python, machining (Lathe & CNC), 3D printing (FDM & SLS), carpentry, and laser cutting 🛠️. He holds certifications in SolidWorks (CSWP – MD, CSWP – S, CSWP – ADT), Generative Design – Autodesk, MATLAB, and Simulink 📜. These skills and certifications showcase his comprehensive expertise in engineering design and manufacturing, making him a versatile and highly capable professional in his field 🌟.

PUBLICATIONS TOP NOTES

Deciphering social media’s role in tourism during crises: a scientific examination

Interorganizational Networks For Competitiveness in Tourism

What does 40 years of regional and business competitiveness in tourism research reveal?

ANÁLISE DO AMBIENTE INSTITUCIONAL E ORGANIZACIONAL DA PISCICULTURA NO ESTADO DO MATO GROSSO DO SUL