Yueping Bao | Water Treatment | Editorial Board Member

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Dr. Yueping Bao | Water Treatment | Editorial Board Member

Associate Professor | Nankai University | China

Dr. Yueping Bao is an environmental scientist and engineer whose work centers on advancing sustainable water treatment technologies through innovative catalytic and membrane-based approaches. Her research integrates materials science, environmental engineering, and analytical chemistry, with a strong focus on advanced oxidation processes, catalytic ceramic membrane development, pollutant degradation mechanisms, and electrochemical treatment strategies. She has contributed to major national research initiatives, including work on enzyme-assisted photocatalytic degradation of chlorophenol pollutants, where she played a key role in catalyst synthesis, system design, and analytical method development. Her expertise spans catalyst fabrication, membrane optimization, water purification system enhancement, and the application of chromatography-based pollutant detection methods. Professionally, she has held research and academic positions in leading institutions, contributing to interdisciplinary projects aimed at improving the efficiency and sustainability of wastewater treatment. Her teaching experience includes supporting postgraduate laboratory instruction and materials science courses, reflecting a commitment to both scientific innovation and student development. Dr. Bao has also engaged with the global research community, sharing her work at international scientific forums. Through her combined research, academic service, and professional engagement, she continues to advance environmentally resilient technologies with the potential to mitigate complex pollution challenges and support long-term water resource protection.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Chen, X., Zhang, H., Xu, S., Du, X., Zhang, K., Hu, C.-P., Zhan, S., Mi, X., Oh, W. D., Hu, X., et al. (2023). A recyclable Co–Fe bimetallic immobilized cellulose hydrogel bead (CoFeO@CHB) to boost singlet oxygen evolution for tetracycline degradation. Catalysts, 13(8), 1150.

Bao, Y., Chen, Y., Lim, T.-T., Wang, R., & Hu, X. (2019). A novel metal–organic framework (MOF)-mediated interfacial polymerization for direct deposition of polyamide layer on ceramic substrates for nanofiltration. Advanced Materials Interfaces, 6(201900132).

Bao, Y., Oh, W.-D., Lim, T.-T., Wang, R., Webster, R. D., & Hu, X. (2019). Elucidation of stoichiometric efficiency, radical generation and transformation pathway during catalytic oxidation of sulfamethoxazole via peroxymonosulfate activation. Water Research, 149, 1–12.

Lee, W. J., Bao, Y., Hu, X., & Lim, T.-T. (2019). Hybrid catalytic ozonation–membrane filtration process with CeOₓ and MnOₓ impregnated catalytic ceramic membranes for micropollutants degradation. Chemical Engineering Journal, 368, 109–118.

Xing, J., Liang, H., Chuah, C. J., Bao, Y., Luo, X., Wang, T., Wang, J., Li, G., & Snyder, S. A. (2019). Insight into Fe(II)/UV/chlorine pretreatment for reducing ultrafiltration (UF) membrane fouling: Effects of different natural organic fractions and comparison with coagulation. Water Research, 161, 115112.

Amir Hamzeh Haghiabi | Water Engineering | Best Researcher Award

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Prof. Dr. Amir Hamzeh Haghiabi | Water Engineering | Best Researcher Award

Academic Member | Lorestan University | Iran

Prof. Dr. Amir Hamzeh Haghiabi is a distinguished scholar in the field of water engineering, with extensive expertise in hydraulic structures, experimental hydraulics, river hydrodynamics, and flood engineering. His research primarily focuses on understanding and modeling the behavior of water flows, sediment transport, and density currents, aiming to develop efficient hydraulic systems and sustainable water management solutions. As a highly accomplished academic, he has contributed significantly to advancing knowledge in hydraulic and environmental engineering through numerous publications, research collaborations, and leadership roles in academia. His work has been recognized internationally, earning him repeated inclusion among the top two percent of scientists worldwide in global citation databases compiled by Elsevier and Stanford University. In addition to his research achievements, he serves on the editorial board of the Journal of Flow Measurement and Instrumentation and has received multiple honors for excellence in research and innovation. Prof. Hamzeh Haghiabi is renowned for his contributions to experimental and theoretical studies in water structure dynamics and for bridging scientific research with practical applications in water resource management and flood control. His professional career reflects a strong commitment to advancing hydraulic science and fostering collaboration between academia and industry to address pressing environmental and engineering challenges.

Profiles: Scopus | Google Scholar

Featured Publications

Haghiabi, A. H., Nasrolahi, A. H., & Parsaie, A. (2018). Water quality prediction using machine learning methods. Water Quality Research Journal, 53(1), 3–13.

Haghizadeh, A., Siahkamari, S., Haghiabi, A. H., & Rahmati, O. (2017). Forecasting flood-prone areas using Shannon’s entropy model. Journal of Earth System Science, 126(3), 39.

Azamathulla, H. M., Haghiabi, A. H., & Parsaie, A. (2016). Prediction of side weir discharge coefficient by support vector machine technique. Water Science and Technology: Water Supply, 16(4), 1002–1016.

Haghiabi, A. H., Parsaie, A., & Ememgholizadeh, S. (2018). Prediction of discharge coefficient of triangular labyrinth weirs using adaptive neuro fuzzy inference system. Alexandria Engineering Journal, 57(3), 1773–1782.

Parsaie, A., & Haghiabi, A. H. (2017). Computational modeling of pollution transmission in rivers. Applied Water Science, 7(3), 1213–1222.