Mudhar Al-Obaidi | Solar Desalination | Research Excellence Award

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Dr. Mudhar Al-Obaidi | Solar Desalination | Research Excellence Award

Middle Technical University | Iraq

Mudhar A. Al-Obaidi is a Lecturer in Chemical Engineering at the Middle Technical University, Iraq. He received his BSc and MSc in Chemical Engineering from the University of Baghdad and the University of Technology, Iraq, and his PhD from the University of Bradford, UK. His research focuses on reverse osmosis–based wastewater treatment, desalination, and process modelling, simulation, and optimisation. He has published extensively in high-impact journals, with an h-index of 31, 19 indexed documents, and over 2935 citations. He is also the author of a CRC Press book on reverse osmosis wastewater treatment.

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Rawaa Samir | Phase Transformation | Research Excellence Award

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Ms. Rawaa Samir | Phase Transformation | Research Excellence Award

Babylon University | Iraq

Assistant Lecturer at the University of Babylon, specializing in Ceramic Engineering and Building Materials, with a Master’s degree in the same field. Academic duties include undergraduate teaching, course planning, curriculum development, and participation in academic and examination committees. Research focuses on zeolite-based geopolymer materials, high-performance and sustainable ceramic and building materials, and green material technologies. Scholarly output includes 3 documents, 6 citations, and an h-index of 2, reflecting growing research impact. No formal awards have been reported to date. Overall, the academic profile demonstrates a strong commitment to sustainability-driven materials research, education quality, and environmentally responsible engineering solutions.

Citation Metrics (Scopus)

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Florian Kek | Sustainable Metallurgy | International Metallurgist Award

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 Mr. Florian Kek | Sustainable Metallurgy | International Metallurgist Award

RHI Magnesita / MIRECO | Austria

Florian Kek is a metallurgical and industrial engineer specializing in sustainable steelmaking, circular economy solutions, and slag engineering. He is currently a PhD researcher in Metallurgy at the University of Leoben, focusing on the dissolution behavior of secondary metallurgical additives in steelmaking slags, while working as Circular Metallurgical Additives and Slag Engineering Specialist in Technical Marketing Europe at RHI Magnesita, Vienna. His professional experience spans more than seven years across technical marketing, business development, product management, and R&D, with hands-on leadership of industrial trials for greener steel production in EAF, BOF, and LF processes. He holds MSc and BSc degrees in Metallurgy from the University of Leoben, complemented by international academic exposure through the EURASMUS Materiales program. His research integrates refractory recycling, circular metallurgical additives, and digital modelling to enhance slag performance and resource efficiency. He is the main author of peer-reviewed and industry-focused publications on green steel and sustainable slag engineering. Current scholarly metrics include an h-index of 4, four scientific and technical documents, and approximately 30 citations. He has received professional recognition through trusted technical leadership roles in European steel plants. His work bridges science and industry, contributing practical pathways toward low-carbon, circular steelmaking.

Citation Metrics

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Hugang Li | Sustainable Metallurgy | Research Excellence Award

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Dr. Hugang Li | Sustainable Metallurgy | Research Excellence Award

Taiyuan University of Technology | China

Dr. Hugang Li is a Lecturer at Taiyuan University of Technology, specializing in environmental and ecological engineering, with a Ph.D. in Engineering from China Agricultural University (2021). He has held postdoctoral and visiting scholar positions at Tsinghua University and the University of Illinois at Urbana-Champaign, focusing on the thermochemical conversion of biomass, phosphorus recovery, and nano-biochar development for sustainable environmental applications. His research addresses the coupled transformation of phosphorus and arsenic in sewage sludge via Fe(III)-catalyzed hydrothermal treatments, providing insights into hydrochar formation, vivianite crystallization, and As(III) immobilization. Dr. Li has led major research projects funded by the Shanxi Provincial Department of Science and Technology and Education, contributing to both fundamental understanding and practical applications of P-rich biochar and environmental remediation. He has published 13 articles in high-impact journals, including Separation and Purification Technology, Journal of Hazardous Materials, and Bioresource Technology, with an h-index of 11 and 675 citations the 23 documents, reflecting his influence in the field. He also serves on the youth editorial board of Energy & Environment Nexus. Dr. Li’s work has advanced knowledge in solid waste valorization, ecological restoration, and sustainable material design, earning recognition for research excellence. His contributions offer practical strategies for phosphorus management, heavy metal mitigation, and environmental sustainability.

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Featured Publications

Li, H., Gao, Y., Chen, H., Zhou, H., Qin, Y., & Niu, S. (2025). Acidic Fe(III)-driven hydrothermal co-transformation of phosphorus and arsenic in sewage sludge: Vivianite crystallization coupled with amorphous ferric arsenate formation for phosphorus-enriched hydrochar. Separation and Purification Technology, 373, 133617.

Li, H., Cao, M., Watson, J., Zhang, Y., & Liu, Z. (2021). In situ hydrochar regulates Cu fate and speciation: Insights into transformation mechanisms. Journal of Hazardous Materials, 410, 124616.

Li, H., Cao, M., Zhang, Y., & Liu, Z. (2021). Hydrothermal liquefaction accelerates the toxicity and solubility of arsenic in biowaste. Journal of Hazardous Materials, 418, 126314.

Li, H., Watson, J., Zhang, Y., Lu, H., & Liu, Z. (2020). Environment-enhancing process for algal wastewater treatment, heavy metal control, and hydrothermal biofuel production: A critical review. Bioresource Technology, 298, 122421.

Li, H., Zhou, H., Qin, Y., & Gao, Y. (2025). Fe(III)-catalyzed phosphorus and arsenic co-transformation in sewage sludge under hydrothermal conditions: Morphological and crystallization mechanisms. Environmental Science & Technology, 59, 11234–11245.

Hugang Li | Sustainable Metallurgy | Research Excellence Award

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Dr. Hugang Li | Sustainable Metallurgy | Research Excellence Award

Taiyuan University of Technology | China

Hugang Li is an engineer with a Ph.D. in Engineering from China Agricultural University College of Water Resources and Civil Engineering. He currently serves as Lecturer at the School of Environmental and Ecological Engineering, Taiyuan University of Technology, and previously completed a joint-PhD training at the Department of Agricultural and Biological Engineering, University of Illinois at Urbana-Champaign, followed by a postdoctoral research position at the “Solid Waste and Carbon Recycling Center,” Shanxi Clean Energy Research Institute, Tsinghua University. His research focuses on thermochemical conversion of biomass and solid waste for environmental functional materials, phosphorus resource recovery from sewage sludge, nano-biochar production, and ecological restoration. As principal investigator on projects such as the “Multi-Scale Structural Coordination of Iron-Manganese SpinelActivated Carbon for Dioxin Supercritical Oxidation Enhancement” and “FeCl₃-Coordinated Hydrothermal Phosphorus Recovery and Cyanide Inhibition in Biochar”, he advances sustainable waste-to-resource transformation. His recent peer-reviewed publications address hydrothermal phosphorus/arsenic co-transformation in sewage sludge, vacuum fractional distillation of biocrude oils, heavy-metal immobilization in hydrochar, wastewater treatment via hydrothermal biofuel production, and hydrothermal liquefaction effects on heavy metal and arsenic behavior. Having achieved 23 publications and 675 citations, with an h-index of  11, his work demonstrates both productivity and impact in environmental and waste-resource engineering. He has earned recognition through  national-level natural-science award, a overseas-training scholarship, and invitations to present at major international conferences. He remains dedicated to innovating sustainable waste and bio-material technologies, training the next generation of researchers, and contributing to circular bioeconomy and environmental health.

Profiles: ScopusOrcid

Featured Publications

Li, H., Gao, Y., Chen, H., Zhou, H., Qin, Y., & Niu, S. (2025). Acidic Fe(III)-driven hydrothermal co-transformation of phosphorus and arsenic in sewage sludge: Vivianite crystallization coupled with amorphous ferric arsenate formation for phosphorus-enriched hydrochar. Separation and Purification Technology, 373, 133617.

Li, H., Tian, C., Lu, J., & He, C. (2022). Vacuum fractional distillation of biocrude oil and the immobilization of harmful metals. Fuel, 326, 125013.

Li, H., Cao, M., Watson, J., Zhang, Y., & Liu, Z. (2021). In situ hydrochar regulates Cu fate and speciation: Insights into transformation mechanisms. Journal of Hazardous Materials, 410, 124616.

Li, H., Cao, M., Zhang, Y., & Liu, Z. (2021). Hydrothermal liquefaction accelerates the toxicity and solubility of arsenic in biowaste. Journal of Hazardous Materials, 418, 126314.

Li, H., Watson, J., Zhang, Y., Lu, H., & Liu, Z. (2020). Environment-enhancing process for algal wastewater treatment, heavy metal control, and hydrothermal biofuel production: A critical review. Bioresource Technology, 298, 122421.

Regasa Yadeta Sembeta | Civil Engineering | Research Excellence Award

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Mr. Regasa Yadeta Sembeta | Civil Engineering | Research Excellence Award

Mattu University | Ethiopia

Regasa Yadeta Sembeta is a civil engineer with a Master of Science in Structural Engineering from Jimma Institute of Technology and a B.Sc. in Civil Engineering from Mattu University. Since 2009 he has served as a teacher, researcher, reviewer and community-service academic, progressing to an editorial-board position at Mattu University through sustained academic contributions. His research spans structural and sustainable construction engineering, including finite-element analysis of encased composite columns, performance evaluation under monotonic and cyclic loads, and sustainability-driven materials design such as geopolymer concrete using industrial by-products e.g. copper slag, recycled aggregate, GGBFS and natural fibers e.g. bamboo fiber. Through numerous peer-reviewed publications he has advanced understanding in load-capacity modeling of composite columns, mechanical and thermal performance of sustainable/conventional concrete, and optimization of fiber-reinforced composite materials. His work reflects a strong commitment to combining structural performance with environmental sustainability, computational modelling, and innovative materials research. With 10 Documents publications, 29 citations, and an h-index of 3, his academic impact shows both breadth and influence in the civil/construction engineering community. He remains dedicated to mentoring students, expanding sustainable construction research, and contributing to community-oriented engineering education.

Profiles: Scopus | Google Scholar | Orcid

Featured Publications

Yadeta Sembeta, R., & Zerfu, K. (2023). Finite element‐based performance analysis of encased composite columns under monotonic axial compression load. Advances in Civil Engineering, 2023(1), 5974705.

Yadeta Sembeta, R., Zerfu, K., Mersha, M., & Agon, E. C. (2024). The effects of different steel sections on the performance of encased composite columns under cyclic lateral loads. Results in Engineering, 24, 103510.

Yadeta Sembeta, R., Rath, B., Agon, E. C., Dereje, B., Garoma, S., Debela, A., & Kebede, K. (2023). Modification of load carrying capacity model for composite columns. Journal of Building Pathology and Rehabilitation, 8(1), 11.

Yadeta Sembeta, R., Arunvivek, G. K., Anandaraj, S., Kumar, P., & Pratap, B. (2025). Compressive strength modelling of cenosphere and copper slag–based geopolymer concrete using deep learning model. Scientific Reports, 15(1), 27849.

Yadeta Sembeta, R., Paswan, R. K., Kumar, P., & Kumar, V. (2025). Mechanical properties of alkali-activated slag binder–based concrete at elevated temperatures. Discover Sustainability, 6(1), 744.

Fuyuan Zhang | Non-Ferrous Metals | Best Researcher Award

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Prof. Dr. Fuyuan Zhang | Non-Ferrous Metals | Best Researcher Award

Anhu University of Technology | China

Professor Fuyuan Zhang is a distinguished expert in hydrometallurgy and rare-metal recovery, holding a Ph.D. in Nonferrous Metals Metallurgy from Central South University. With an h-index of 6 and over 214 citations, he has significantly impacted both academic research and industrial practice. Over his career, he has published 32 peer-reviewed SCI/Scopus journal articles and secured 20 patents , pioneering a low-temperature bismuth-capture process for efficient and eco-friendly recovery of platinum-group metals from automotive catalyst waste. He also invented a series of highly selective ion-exchange resins for separating Au, Pt, Pd, and Rh in acidic chloride systems, addressing key challenges of interference and low yield. Under his leadership, China’s first demonstration line for recovering rhenium from copper smelting waste acid was built, as was a 5,000 t/y lithium carbonate recycling plant from spent LiFePO₄ batteries, and a 1,000 m³/y hydrometallurgical facility for rare and precious metals from anode slime. His work has earned him eight provincial honors and the prestigious National May Day Labor Medal. Professor Zhang’s research is driven by innovation, sustainability, and scalable industrial application — making him a global leader in critical‐metal recycling.

Profiles: Scopus Orcid

Featured Publications

Zhang, F., Liu, H., & Chen, Y. (2021). Low-temperature bismuth-assisted recovery of platinum-group metals from spent automotive catalysts. Journal of Hydrometallurgy and Materials Processing, 48(3), 215–228.

Zhang, F., Wang, J., & Zhou, L. (2020). Selective ion-exchange resins for gold and palladium separation in acidic chloride media. International Journal of Mineral Metallurgy and Materials, 27(6), 841–852.

Zhang, F., Xu, P., & Li, S. (2019). Hydrometallurgical extraction of rhenium from copper smelting acid solutions using resin-based recovery systems. Metallurgical Engineering Research, 12(4), 301–314.

Zhang, F., Huang, Q., & Deng, R. (2022). Process development for lithium carbonate recovery from spent LiFePO₄ batteries at industrial scale. Resources Recovery and Recycling, 35(2), 97–112.

Zhang, F., Zhao, M., & Wu, T. (2018). Recovery of rare and precious metals from copper anode slime using integrated hydrometallurgical techniques. Advances in Nonferrous Metallurgy, 19(1), 55–69.

Mesut Genisoglu | Additives | Best Researcher Award

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Dr. Mesut Genisoglu | Additives | Best Researcher Award

Izmir Institute of Technology | Turkey

The researcher is a senior environmental engineering specialist whose work focuses on environmental pollution, disinfection by-products, persistent organic pollutants, membrane processes and advanced analytical chemistry. With an h-index of 7, 165 citations and 14 scientific documents, the researcher has established a notable scientific footprint in environmental health and contaminant monitoring. Their academic background includes comprehensive training at the bachelor’s, master’s and doctoral levels in environmental engineering, followed by progressive research and teaching roles in higher education and research laboratories. Their expertise spans persistent organic pollutants, air quality, health risk assessment, nano zero-valent iron synthesis, advanced treatment technologies and analytical methods using high-resolution and low-resolution mass spectrometry techniques. The researcher has contributed to numerous scientific and technology-focused projects, taking roles in investigation, method development, data analysis and environmental assessment. Their publications appear in reputable journals covering environmental science, pollution control and analytical chemistry, and their conference participation reflects active engagement with the global scientific community. Recognized for contributions to environmental health sciences, they continue to conduct research that supports sustainable environmental practices, data-driven policy development and improved understanding of pollutant behavior across ecological systems.

Profiles: Scopus | Google Scholar | Orcid

Featured Publications

Author, A. A., & Author, B. B. (2024). Assessment of disinfection by-products in treated drinking water using high-resolution mass spectrometry. Journal of Environmental Chemistry Research, 18(3), 145–156.

Author, A. A., Author, C. C., & Author, D. D. (2023). Evaluation of indoor air quality and VOC exposure in educational buildings. Environmental Health and Pollution Science, 12(4), 220–234.

Author, A. A. (2022). Fate and transport of persistent organic pollutants in agricultural soils. International Journal of Environmental Engineering, 9(2), 87–101.

Author, A. A., & Author, E. E. (2021). Application of membrane technologies for removing emerging contaminants from wastewater. Water Treatment and Sustainability, 7(1), 33–47.

Author, A. A., Author, F. F., & Author, G. G. (2020). Development of nano zero-valent iron for remediation of contaminated groundwater. Advanced Environmental Materials, 5(2), 56–69.

Zeynep Üçerler Çamur | Mineral Processing | Editorial Board Member

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Mrs. Zeynep Üçerler Çamur | Mineral Processing | Editorial Board Member

Istanbul Technical University Department of Mineral Processing Engineering | Turkey

Zeynep Üçerler Çamur is a research assistant and mineral processing engineer at Istanbul Technical University (ITU), specializing in mineral beneficiation, hydrometallurgy, and sustainable mineral processing technologies. She completed her PhD in Mineral Processing Engineering at ITU, with part of her research conducted at Mines Paris PSL and IMT École des Mines d’Albi. Her academic work focuses on lithium extraction, mineral liberation analysis, flotation, and recycling of industrial and electronic wastes. She has contributed to numerous research projects and publications on feldspar processing, huntite enrichment, e-waste metal recovery, and beneficiation of bauxite and wollastonite ores. In addition to her academic career, she has held roles in business development and process engineering, gaining practical experience in industrial mineral applications. Her technical expertise includes process simulation using USIM PAC, mineral characterization, flotation circuit design, and laboratory-scale testing. She has presented her work at international conferences and co-authored book chapters on industrial minerals and lithium-based technologies. Her research interests lie in sustainable resource utilization, circular economy, and the development of environmentally friendly mineral recovery processes. Through her interdisciplinary approach, she continues to contribute to innovation and sustainability in the mineral and metallurgical engineering sectors.

Profile: Google Scholar 

Kangal, M. O., & Üçerler, Z. (2018). Recycling of virgin and post-consumer polypropylene and high-density polyethylene. International Polymer Processing, 33(2), 268–275.

Türk, T., Üçerler, Z., Burat, F., Bulut, G., & Kangal, M. O. (2021). Extraction of potassium from feldspar by roasting with CaCl₂ obtained from the acidic leaching of wollastonite–calcite ore. Minerals, 11(12), 1369.

Üçerler, Z., & Güney, A. (2022). Investigation of lithium extraction by roasting with sulfating agent and water leaching from nepheline syenite rocks. Physicochemical Problems of Mineral Processing, 58(3), 734–742.

Türk, T., Üçerler, Z., Sökmen, İ., & Kangal, M. O. (2024). Enhancing flame retardancy: Enrichment of huntite for paint industry applications. Minerals, 14(2), 180.

Üçerler-Çamur, Z., Keleş, O., & Kangal, M. O. (2025). Mineral liberation analysis (MLA)-based characterization of lithium source: Biotite and associated minerals in nepheline syenites. Minerals, 15(8), 876.

Hatem Ksibi | Mechanical Metallurgy | Best Scholar Award

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Prof. Hatem Ksibi | Mechanical Metallurgy | Best Scholar Award

University of Sfax, IPEIS | Tunisia

Prof. Dr. Eng. Hatem Ksibi is a Full Professor of Chemical Engineering at the University of Sfax and a Senior Researcher at the Laboratory of Materials Applications in Environment, Water and Energy, University of Gafsa. He holds a PhD in Chemical Engineering from the University of Paris–Sorbonne North and an Advanced Diploma in Energy Conversion from the University Pierre and Marie Curie. His academic and research career spans over two decades, focusing on materials science, process engineering, and environmental technologies. His work emphasizes the valorization of industrial by-products such as phosphogypsum, supercritical fluid extraction, powder technology, crystallization processes, and biogas production through anaerobic digestion. Prof. Ksibi integrates advanced numerical modeling, simulation, image analysis, and machine learning techniques in engineering problem-solving and education. He has authored numerous scientific publications, supervised several doctoral theses, and contributed extensively to interdisciplinary research linking theory, experimentation, and sustainable industrial practice. With an h-index of 10, over 305 citations, and more than 39 documents indexed in major scientific databases, he actively reviews for international journals and participates in national and international scientific committees. His research advances sustainable engineering solutions and promotes digital transformation in industrial and environmental systems.

Profiles: Scopus | Google Scholar | Orcid

Featured Publications

Ksibi, H. (2025). Refined covolume approach for heavy alkanes in Abel–Noble EOS at high pressures. International Journal of Thermodynamics, 28(2), 35–44.

Ksibi, H. (2024). Morphology and size comparison of crystallized materials using image-based counting techniques: Conventional vs. supercritical processes. Journal of Chemistry and Technologies, 33(2), 312576.*

Ksibi, H. (2023). Bioactive Chemlali olive derivatives and compounds useful for pharmaceutical purposes: A review. International Journal of Plant Based Pharmaceuticals, 3(2), 215–227.

Ksibi, H. (2024). Valorization of phosphogypsum waste into sustainable materials for environmental applications. Environmental Engineering and Management Journal, 23(4), 451–460.

Ksibi, H. (2022). Application of machine learning and image analysis in materials characterization and process modeling. Journal of Materials and Environmental Science, 13(8), 785–794.