Dr. Benan Shu, Foshan Transportation Science and Technology Co., Ltd, China.
Benan Shu π is a Senior Engineer and Director at Foshan Transportation Technology Co., Ltd. ποΈ, where he leads innovative projects in civil engineering materials and solid waste resource utilization β»οΈ. With a Ph.D. from Wuhan University of Technology and international research experience as a visiting scholar at Monash University π, he brings a global perspective to sustainable infrastructure development πΏ. His work bridges academic research and industrial application, driving advancements in eco-friendly construction π§ͺπ§. Recognized with multiple national awards π
, Dr. Shu continues to contribute to the development of green technologies in the transportation and construction sectors π£οΈ.
Publication Profiles
Β Education & ExperienceΒ
π Education
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π Ph.D. in Civil Engineering, Wuhan University of Technology (2015β2020)
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π Visiting Scholar, Monash University, Australia (2018β2019)
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π Bachelor of Science, China University of Mining and Technology (2011β2015)
πΌ Experience
Summary Suitability for the Award
Dr. Benan Shu, currently serving as a Senior Engineer and Director at Foshan Transportation Technology Co., Ltd., is nominated for the Best Researcher Award in recognition of his outstanding research contributions to civil engineering materials and solid waste resource utilization. With a sharp scientific vision and strong innovation capacity, Dr. Shu has consistently delivered research outcomes with significant practical and societal impact.
Β Professional Development
Benan Shuβs professional journey reflects a strong commitment to innovation and sustainability in infrastructure development π£οΈ. As Director and Senior Engineer at Foshan Transportation Technology Co., Ltd., he leads research initiatives focused on the development and application of civil engineering materials and waste recycling technologies π¬β»οΈ. With a solid academic foundation and global exposure through his stint at Monash University π, Dr. Shu continues to bridge the gap between cutting-edge research and real-world engineering. His leadership and forward-thinking approach have earned him a distinguished reputation in the transportation and construction sectors ποΈπ§ .
Β Research FocusΒ
Benan Shuβs research falls within the domain of Sustainable Civil Engineering and Environmental Materials π§ͺπ±. His focus is on the development of innovative civil engineering materials and technologies for the effective utilization of solid waste β»οΈ. This includes transforming industrial by-products and construction debris into valuable engineering resources, thereby reducing environmental impact π. His work is instrumental in promoting eco-friendly infrastructure practices and aligns with global trends in green construction π§πΏ. Through interdisciplinary R&D, Dr. Shu contributes to advancing circular economy principles in the civil engineering industry πποΈ.
Β Awards & HonorsΒ
π
2023 β Second Prize of Science and Technology by China Highway Society
π
2024 β Second Prize of Invention Entrepreneurship Project by China Invention Association
π₯ 2024 β Gold Award at the 28th National Invention Exhibition
π 2024 β Second Prize of Invention Entrepreneurship Achievements by China Invention Association
Publication Top Noted
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𧱠Carbon emission, durability and application of solid waste based solidification material solidification soil, Materials Today Sustainability, 2025
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β»οΈ Performance and carbon emission of solid waste-based solidification materials cooperative fiber solidifying soil, AIP Advances, 2025
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π’οΈ Study on the performance and mechanism of aging asphalt with organicβinorganic composite rejuvenator, AIP Advances, 2025
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π§ͺ Effect of Recycled Asphalt Mixture and Solid Waste-Based Solidification Materials on Performance of Cold-Regenerated Asphalt Mixture, Materials, 2024
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π§οΈ Dry-wet cycles durability of solid waste based cementing materials solidifying different characteristic soils, Materials Research Express, 2024
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π§― Coupling Effect of Expansion Agent and Internal Curing Aggregate on Shrinkage of High-Modulus Ultra-High-Performance Concrete, Coatings, 2023
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π¬ Study on macro performance and micro-analysis of high strength grouting material, Materials Research Express, 2023