Wan | Eco-Friendly Solutions for Water Pollution Control and Resource Management | Buch | 978-981-9201-47-1 | www.sack.de

Buch, Englisch, 287 Seiten, Format (B × H): 155 mm x 235 mm

Reihe: Environmental Science and Engineering

Wan

Eco-Friendly Solutions for Water Pollution Control and Resource Management

Proceedings of 2025 The 8th International Symposium on Water Pollution and Treatment (ISWPT 2025)
Erscheinungsjahr 2026
ISBN: 978-981-9201-47-1
Verlag: Springer Verlag, Singapore

Proceedings of 2025 The 8th International Symposium on Water Pollution and Treatment (ISWPT 2025)

Buch, Englisch, 287 Seiten, Format (B × H): 155 mm x 235 mm

Reihe: Environmental Science and Engineering

ISBN: 978-981-9201-47-1
Verlag: Springer Verlag, Singapore


This book compiles the proceedings of the 8th International Symposium on Water Pollution and Treatment (ISWPT 2025), featuring a collection of cutting-edge research and practical insights from global experts in the water pollution and treatment field. The symposium, held in 2025, brings together scientists, engineers, policy-makers, and environmental professionals to explore innovative solutions to water pollution challenges. The book covers a wide range of topics, including the latest advancements in water treatment technologies, strategies for pollution reduction, policy frameworks, and governance models. Key themes include emerging contaminants, sustainable water treatment technologies, wastewater reuse, and the role of eco-friendly materials and biotechnologies in water purification. It also highlights the intersection of scientific research with policy-making and governance, providing readers with a comprehensive understanding of how technological innovation and sound policies can collaboratively tackle water pollution challenges. Ideal for researchers, engineers, students, and professionals in environmental sciences, this book serves as both a valuable reference and a forward-thinking guide for future advancements in the field of water pollution control and sustainable water management.

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Zielgruppe


Research


Autoren/Hrsg.


Weitere Infos & Material


An Integrated AI-Based Framework for Predicting Urban River Water Quality Using Multisource Environmental Data.- Prediction of Irrigation Water Quality in the Periyar River Basin using Machine Learning Techniques.- Drinking water potability prediction and hotspot mapping for lead using integrated machine learning model: Thakurgaon, Bangladesh.- Characteristics and Assessment of Water Resource Quality in Trunk Rivers of Jiangsu Province.- Analysis of Water Quality Characteristics in the River Network of Suzhou's Ancient District.- Water Ecological Protection in the Three Gorges Reservoir Area Based on the “Community of Life” Concept: Current Status and Pathway Exploration.- The macrozoobenthos community structure of the Bacicka River in the Pešter Plateau.- Research on Communication Frames in China's Mainstream Media Coverage of Water Environment Governance: A Case Study of People's Daily.- A Preliminary Study on the Impact of Hydropower Project Construction on Bird Diversity in the Qinghai-Tibet Plateau Region.- Development of Magnetic Chitosan for Adsorptive Removal of Methyl Orange Dye.- Results of experimental studies on the method for determining the ash content of sewage sludge after its treatment in a bioreactor.- Synergistic effect of cocamidopropyl hydroxysulfate betaine and NaOH in petroleum sludge washing.- Modelling of Swelling Stress of Bentonite: Measurements of Thermodynamic Data of Interlayer Water in Na-Montmorillonite, Main Component of Na-Bentonite.- Effect of Salt water Concentration on the Number of Hydration Layers in Montmorillonite Interlayer, Major Mineral of Bentonite Composing Buffer Material in Geological Disposal.- Assessment of the possibilities of using earth low-potential heat in the Eastern Donbass.


Dr. Wan Zhanhong is Professor at Ocean College of Zhejiang University and Ph.D. Supervisor. His research interests cover port, coastal and offshore engineering; clean energy and water resources; fluid mechanics; and air-sea interaction. Over the years, Dr. WAN has published more than 60 academic papers and holds over 30 patents, with significant contributions to national and provincial research projects. Dr. WAN has served as Guest Editor for several prestigious journals, including: The Journal of Coastal Research (JCR), Special Issue: “Coordinated Sustainable Development in Coastal Areas: Environment and Economy”.  Additionally, he is Member of the editorial board for Satellite Oceanography and Meteorology (SOM) and Water Economics and Policy. His extensive editorial experience and in-depth knowledge of water resources management, policy, and sustainable development make him well-equipped to contribute as Guest Editor for the ISWPT 2025 proceedings.



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