Qiu Jun – Environmental Engineering – Outstanding Scientist Award

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Qiu Jun - Environmental Engineering - Outstanding Scientist Award

Beijing Normal University - China

AUTHOR PROFILE

GOOGLE SCHOLAR
ORCID

SUMMARY

Qiu Jun is a renowned expert in atmospheric water resource technology, microscale fluid-solid interaction mechanics, and engineering design. A consistent contributor to water sciences and hydrology, the research spans multiple domains, including energy-water systems and environmental sustainability. Roles in academia and national laboratories emphasize a dedication to scientific advancement, innovation, and interdisciplinary collaboration. The focus lies in solving practical water and environmental challenges using advanced simulation, modeling, and field experimentation. With a series of high-impact publications and international collaborations, Qiu Jun's contributions are pivotal in bridging aerospace engineering principles with water science to address global resource challenges.

EDUCATION

Education began with a Bachelor of Science degree from the School of Aerospace, Tsinghua University, Beijing. This was followed by a Master’s and Ph.D. from the same institution, deepening expertise in engineering and applied sciences. Further academic enrichment came through a visiting scholar program at Columbia University in the Department of Biomedical Engineering. Postdoctoral research continued at Tsinghua University, focusing on applied hydrology and mechanics. The educational background combines aerospace, hydrology, and biomedical research, equipping Qiu Jun with a unique interdisciplinary foundation ideal for tackling modern challenges in water resource management and environmental engineering.

PROFESSIONAL EXPERIENCE

Professional trajectory includes roles from Postdoctoral Research Fellow to Assistant Professor at Tsinghua University. Later held research fellow positions in the Department of Hydraulic and Hydrology, culminating in appointment as Distinguished Research Fellow at Qinghai University’s State Key Laboratory. Currently serving as Professor at Beijing Normal University's College of Water Sciences. Experience reflects a steady progression through prestigious institutions, emphasizing innovation in water systems, experimental hydrology, and resource optimization. Work includes leadership in major national and institutional research programs, with responsibilities in academic mentorship, experimental platform development, and policy-informing environmental studies.

RESEARCH INTEREST

Core interests include atmospheric water harvesting, gravity energy storage systems, climate-influenced hydrological cycles, reservoir management, and fluid mechanics at the microscale. Research integrates physical experimentation with advanced modeling to enhance water resource reliability and sustainable energy applications. Special attention is given to ecological water demand, fog elimination, and climate-induced precipitation patterns. Studies frequently address the Qinghai-Tibet Plateau, emphasizing regional hydrological behavior and its global implications. Optimization techniques, including particle swarm algorithms, are applied across image processing and water systems. This multidisciplinary approach enables the design of practical and theoretical frameworks to tackle pressing environmental and energy challenges.

AWARD AND HONOR

Recognition stems from significant publications, international collaborations, and national-level appointments. Invitations to contribute as corresponding author on numerous peer-reviewed journals highlight leadership within the field. Notable appointments at Tsinghua University and Beijing Normal University reflect academic and institutional recognition. Participation in interdisciplinary research projects across China and abroad demonstrates trust in scientific competence and leadership. Although formal awards are not listed, distinguished titles and appointments serve as evidence of professional acknowledgment. Positions in leading water science centers and engineering departments reinforce continued contributions to scientific excellence and environmental solutions in academia and applied science.

RESEARCH SKILL

Possesses advanced skills in experimental system design, atmospheric water collection techniques, hydrological modeling, MATLAB GUI programming, image inpainting using PSO algorithms, and climate variability analysis. Well-versed in integrating environmental data with simulation software and optimization tools to enhance decision-making in reservoir and water system management. Additional competencies include acoustic fog elimination, ecological forecasting, and data-driven zoning of precipitation regimes. Research frequently applies computational fluid dynamics, laboratory-scale validation, and long-term environmental monitoring. The integration of engineering methods with climate science underlines a systems-level research skillset suited for applied environmental and hydrological studies.

CONCLUSION

Work exemplifies the fusion of aerospace engineering, environmental science, and water resource management. With strong academic roots and wide-ranging applications, research addresses urgent global challenges such as water scarcity, climate variability, and energy sustainability. Contributions span foundational theory, applied experimentation, and policy-relevant insights. Engagement across major Chinese universities and global institutions underscores influence and reach. From designing fog elimination systems to optimizing reservoir operations, the approach remains comprehensive, forward-thinking, and multidisciplinary. Through high-level appointments, impactful publications, and continuous research, Qiu Jun emerges as a key figure in advancing scientific solutions for sustainable resource management.

Hocine Heraiz – Solid Waste Management – Waste Reduction and Management Award

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Hocine Heraiz - Solid Waste Management - Waste Reduction and Management Award

University Of Science and technology Beijing - China

AUTHOR PROFILE

GOOGLE SCHOLAR

ORCID

SUMMARY

Hocine Heraiz is a dedicated Ph.D. researcher in Mineral Processing Engineering at the University of Science and Technology Beijing. His academic journey focuses on sustainable construction materials, particularly ultra-high-performance concrete (UHPC) derived from industrial solid waste. With expertise in mechanical property testing and microstructure analysis, he contributes significantly to environmentally friendly construction innovations. His research blends materials science, recycling, and engineering solutions to promote sustainability. Hocine is proficient in scientific tools like Origin Pro, High Score Plus, and Excel, and skilled in multilingual communication. His professional path exemplifies technical expertise, innovation, and commitment to green development.

EDUCATION

Hocine holds a Ph.D. in Mineral Processing Engineering from UST Beijing, where his thesis focuses on UHPC made from solid waste. He also earned a Master’s in Materials Science from the University of Msila, focusing on eco-friendly bio-composites, and an Engineering degree in Mining from the National Polytechnic School of Algeria. His academic background integrates solid waste recycling, mining processes, fiber reinforcement, and alkaline treatment of natural fibers. He participated in renewable energy training, further expanding his multidisciplinary expertise. Hocine’s education reflects a strong commitment to sustainable materials and innovative construction solutions across mining and environmental sectors.

PROFESSIONAL EXPERIENCE

Hocine Heraiz has served as a Mining Engineer in Algeria, leading mining operations with a focus on safety and efficiency. He held an academic role as an Associate Professor at the University of Msila and worked as a Site Manager at GRTI, overseeing construction projects. Most recently, he supported the Embassy of Algeria in China as an Administrator and Technical Staff member, ensuring operational excellence and document management. His roles have encompassed leadership, technical troubleshooting, team coordination, and regulatory compliance, demonstrating his capacity to adapt across academic, industrial, and diplomatic environments with a results-driven approach.

RESEARCH INTEREST

Hocine's research interests center on sustainable development through the utilization of industrial by-products for the preparation of UHPC. He explores the mechanical and microstructural behavior of concrete enhanced by recycled materials and steel fibers. His work emphasizes reducing carbon emissions by creating cementitious materials from metallurgical waste. He also investigates bio-composites reinforced with natural fibers and the use of ANN for mechanical modeling. Hocine's passion lies in the circular economy and innovative construction technologies that bridge material science, waste recycling, and structural engineering to deliver high-performance, environmentally responsible building materials.

AWARD AND HONOR

Hocine Heraiz was awarded the Silver Prize in the prestigious “Challenge Cup” Entrepreneurship Competition, under the “Belt and Road” International Track. This award recognized his project on innovative cotton processing technologies for solid waste utilization, which contributes to the green goals of the Belt and Road Initiative. This honor not only acknowledges his scientific and technical innovation but also emphasizes his ability to link academic research with real-world sustainability challenges. It showcases his role as an emerging leader committed to advancing ecological engineering solutions in the international research community.

RESEARCH SKILL

Hocine demonstrates robust research capabilities in experimental design, mechanical testing, and advanced characterization techniques such as SEM, FTIR, XRD, and TGA-DSC. He is skilled in data modeling using ANN and RSM, and proficient with software tools like Origin Pro, High Score Plus, and Excel. His experience includes the optimization of concrete formulations, fiber reinforcement effects, and sustainability evaluation. Hocine’s interdisciplinary expertise bridges civil engineering, materials science, and data science, enabling him to produce high-impact, reproducible research results aligned with global sustainability goals. His meticulous approach enhances the quality and practical relevance of his findings.

PUBLICATIONS

Examining the Bending Test Properties of Bio-Composites Strengthened with Fibers Through a Combination of Experimental and Modeling Approaches
Authors: K. Saada, C. Farsi, S. Amroune, M. Fnides, M. Zaoui, H. Heraiz
Journal: Journal of Composite Materials 58 (12), 1483–1499

Assessment of Mechanical and Physicochemical Properties of Palm Fiber Composites: Effect of Alkaline Treatment and Volume Alterations
Authors: H. Heraiz, C. Farsi, H. Makri, S. Amroune, A. Belaadi, K. Saada, M. Zaoui, ...
Journal: Journal of Composite Materials 58 (15), 1789–1800

Optimization of Ultra-High-Performance Concrete Using a Clinker-Free Binder and Iron Mine Tailings Aggregate
Authors: H. Heraiz, X. Mu, J. Li, B. Lei, S. Zhang, Y. Li, S. Zhu, W. Ni, M. Hitch
Journal: Minerals 15 (1), 28

The Effect of the Meshing Technique on Cracking and Its Extension in a Bio Composite Plate
Authors: K. Saada, S. Amroune, M. Zaoui, R. Benyettou, H. Heraiz
Journal: (Journal name not explicitly stated — likely in conference proceedings or pre-print platform)

Numerical Study of Mechanical Properties and Crack Propagation in a 2024 T3 Aluminum Plate
Authors: K. Saada, S. Amroune, M. Zaoui, H. Heraiz, R. Benyettou
Journal: (Journal name not explicitly stated — likely in conference proceedings or under review)

CONCLUSION

Hocine Heraiz exemplifies the fusion of research, engineering, and sustainable development. With a strong academic foundation, practical field experience, and award-winning innovation, he contributes valuable knowledge to the field of material science and environmental engineering. His commitment to sustainability, scientific rigor, and interdisciplinary collaboration places him at the forefront of green construction solutions. Hocine’s work is impactful and forward-looking, aiming to address global environmental challenges through cutting-edge research. As he continues to explore high-performance, low-carbon materials, Hocine remains a promising figure in the future of sustainable infrastructure and academic leadership.