Fauzan Djamaluddin | Clean Transportation | Best Researcher Award

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Assist. Prof. Dr. Fauzan Djamaluddin | Clean Transportation | Best Researcher Award

Lecturer | Hasanuddin University | Indonesia

Dr. Fauzan, ST, MT, PhD, is a prominent scholar and researcher in mechanical and materials engineering, widely recognized for his expertise in impact engineering, finite element analysis, crashworthiness, and solid mechanics. His research primarily focuses on the design, analysis, and optimization of lightweight and energy-absorbing structures, particularly those utilizing aluminum foams and composite materials for advanced safety applications in automotive, marine, and rail transport systems. Through his innovative work, he has contributed significantly to improving energy absorption efficiency, structural resilience, and passenger safety while supporting the global transition toward sustainable engineering solutions. He has successfully led multiple funded research projects centered on the development and optimization of advanced materials and structural systems aimed at enhancing vehicle safety and energy efficiency. His research findings have been published in leading international journals, including Ocean Engineering, International Journal of Crashworthiness, Results in Materials, and Latin American Journal of Solids and Structures, reflecting the high scientific rigor and impact of his work. His studies combine experimental and computational approaches, employing advanced simulation tools such as MATLAB, Abaqus, and SolidWorks to model, validate, and optimize complex mechanical systems under various loading conditions. In addition to his strong research profile, Dr. Fauzan actively contributes to academic development through mentoring, interdisciplinary collaboration, and the dissemination of applied engineering knowledge. His work not only advances theoretical understanding but also delivers tangible benefits to society through safer, lighter, and more efficient mechanical systems. Dr. Fauzan’s academic excellence and research influence are reflected in his growing global recognition, with 311 citations, 36 publications, and an h-index of 10, underscoring his meaningful contributions to the fields of mechanical design and materials innovation.

Profiles: Google Scholar | Scopus | ORCID | ResearchGate | LinkedIn

Featured Publications

1. Djamaluddin, F., Abdullah, S., Ariffin, A. K., & Nopiah, Z. M. (2015). Optimization of foam-filled double circular tubes under axial and oblique impact loading conditions. Thin-Walled Structures, 87, 1–11. Cited by: 137

2. Djamaluddin, F., Abdullah, S., Ariffin, A. K., & Nopiah, Z. M. (2015). Non-linear finite element analysis of bitubal circular tubes for progressive and bending collapses. International Journal of Mechanical Sciences, 99, 228–236. Cited by: 35

3. Djamaluddin, F., Abdullah, S., Ariffin, A. K., & Nopiah, Z. M. (2015). Multi-objective optimization of foam-filled circular tubes for quasi-static and dynamic responses. Latin American Journal of Solids and Structures, 12(6), 1126–1143. Cited by: 35

4. Djamaluddin, F., Abdullah, S., Ariffin, A. K., & Nopiah, Z. M. (2016). Finite element analysis and crashworthiness optimization of foam-filled double circular under oblique loading. Latin American Journal of Solids and Structures, 13, 2176–2189. Cited by: 21

5. Djamaluddin, F., Abdullah, S., Ariffin, A. K., & Nopiah, Z. M. (2019). Optimisation and validation of full and half foam filled double circular tube under multiple load cases. International Journal of Crashworthiness. Cited by: 16

Dr. Fauzan Djamaluddin’s research advances global innovation in mechanical and materials engineering by developing lightweight, energy-absorbing structures that enhance vehicle safety, energy efficiency, and structural sustainability. His pioneering work in finite element modeling and crashworthiness design contributes to safer, greener, and more efficient transportation systems, bridging the gap between scientific discovery and real-world industrial applications.

Zhenghao Yang | Carbon Neutral Technologies | Young Scientist Award

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Dr. Zhenghao Yang | Carbon Neutral Technologies | Young Scientist Award

Doctor | Air Force Engineering University | China

Dr. Zhenghao Yang is a distinguished researcher at the Air Force Engineering University, Xi’an, China, specializing in advanced combustion systems, energy conversion efficiency, and sustainable propulsion technologies. With 16 publications, 113 citations, and an h-index of 6, he has established a growing academic presence in renewable and green energy research. His work focuses on optimizing combustion and energy conversion mechanisms under specialized and extreme operating conditions, particularly for high-altitude applications in aerospace systems. A notable example of his research is the study titled “Optimization research of combustion and energy conversion efficiency of elliptical rotary engine at high altitude using green hydrogen fuel” (Renewable Energy, 2026), which exemplifies his innovative efforts in integrating hydrogen-based propulsion technologies as sustainable alternatives to traditional fossil-fuel engines. His expertise encompasses computational fluid dynamics (CFD), thermodynamic modeling, performance optimization, and hybrid energy system integration, contributing to advancements in energy efficiency and emission reduction. Collaborating with 18 co-authors across various institutions, Dr. Yang demonstrates strong interdisciplinary engagement that connects mechanical engineering, renewable energy, and environmental sustainability. His research holds significant relevance for both aviation and defense sectors, addressing global challenges related to clean energy utilization, decarbonization, and eco-efficient propulsion. Through his continued exploration of hydrogen-fueled engines and high-performance energy systems, Dr. Zhenghao Yang contributes meaningfully to the worldwide transition toward sustainable energy technologies and low-carbon innovation, positioning himself as a promising leader in the field of green propulsion research.

Profile: Scopus | ORCID | ResearchGate

Featured Publications

1. Yang, Z., Jia, G., Fang, Z., Du, Y., He, G., & Wang, Z. (2026). Optimization research of combustion and energy conversion efficiency of elliptical rotary engine at high altitude using green hydrogen fuel. Renewable Energy.

2. Yang, Z., Du, Y., Jia, G., Gao, X., Fang, Z., He, G., & Wang, Z. (2025). Clean combustion of a hydrogen-doped elliptical rotary engine based on turbulent jet ignition: Synergistic enhancement of thermodynamic and emission performance via flow field coupling. Energy Conversion and Management.

3. Yang, Z., Du, Y., Jia, G., Gao, X., He, G., & Wang, Z. (2025). Effect of multi-hole passive jet ignition on thermodynamic and combustion characteristics of hydrogen-doping elliptical rotary engine in high-altitude environment. Energy.

4. Yang, Z., Jia, G., Du, Y., Fang, Z., Gao, X., He, G., & Wang, Z. (2025). Investigation of high-tumble chamber of ammonia-hydrogen fueled elliptical rotary engine based on turbulence and combustion characteristics. Fuel.

5. Du, Y., Yang, Z., Zhang, Z., Wang, Z., He, G., Wang, J., & Zhao, P. (2024). Control strategy optimization exploration of a novel hydrogen-fed high-efficiency X-type rotary engine hybrid power system by coupling with recuperative organic Rankine cycle. Energy.

Dr. Zhenghao Yang’s research advances the development of clean, high-efficiency hydrogen-fueled rotary engines, contributing to global decarbonization, sustainable aviation, and next-generation propulsion technologies. His innovative work bridges energy science and engineering, fostering breakthroughs that support a greener and more energy-efficient future for society and industry alike.