Multiple Objective Treatment Aspects of Bank Filtration: UNESCO-IHE PhD Thesis (IHE Delft PhD Thesis Series)
By Sung Kyu Maeng
Bank filtration (BF) is a natural water treatment process which induces surface water to flow in response to a hydraulic gradient through soil/sediment and into a vertical or horizontal well. It is a relatively cost-effective, robust and sustainable technology. From a historical perspective, BF is first mentioned in the bible, and the process has been recognized as a proven method for drinking water treatment in Europe for more than 100 years. However, the mechanisms of removal of different contaminants during BF are not fully understood. This study showed that BF is an effective multiple objective barrier for removal of different contaminants present in surface water sources including bulk organic matter and organic micropollutants (OMPs) like pharmaceutically active compounds and endocrine disrupting compounds. It was found that biodegradation and adsorption play primary and secondary roles, respectively, in the removal of OMPs during soil passage. Furthermore, using field data from BF sites and chemical properties of OMPs, models were developed to estimate the removal of OMPs during soil passage. It can be concluded that the removal efficiencies of BF for these contaminants can be maximised by proper design and operation of recovery wells taking into consideration source water quality characteristics and local hydrogeological conditions.
Bank filtration (BF) is a natural water treatment process that has been used for centuries to provide safe drinking water. In the book “Bank Filtration for Drinking Water Treatment: Integrated Management Approaches,” Sung Kyu Maeng explores the mechanisms behind this process and demonstrates its effectiveness in removing contaminants from surface water sources. This comprehensive guide offers valuable insights for water treatment professionals and researchers interested in sustainable and cost-effective water treatment solutions.
The book begins by delving into the historical background of bank filtration, tracing its origins back to biblical times. It then goes on to explain the fundamental principles and mechanisms involved in the BF process. Through a combination of laboratory experiments and field data analysis, Maeng shows how BF can effectively remove various contaminants, including bulk organic matter and organic micropollutants (OMPs) such as pharmaceuticals and endocrine disrupting compounds.
One of the key findings of the study is that biodegradation plays a crucial role in the removal of OMPs during soil passage, followed by adsorption as a secondary mechanism. This discovery offers valuable insights into the design and operation of BF systems for maximum contaminant removal. By understanding the chemical properties of OMPs and considering source water quality characteristics and local hydrogeological conditions, water treatment professionals can optimize the performance of BF systems.
The book also provides practical guidance on the design and operation of recovery wells in BF systems. By following the recommendations outlined in the book, water treatment professionals can ensure the effective removal of contaminants and the production of high-quality drinking water. The author emphasizes the importance of proper design and operation in maximizing the removal efficiencies of BF systems.
With its 208 pages of in-depth analysis and insights, “Bank Filtration for Drinking Water Treatment” is a valuable resource for anyone involved in water treatment and management. The book is published by CRC Press, a reputable publisher known for its high-quality scientific publications.
In addition to its comprehensive content, the book is also lauded for its clear and concise writing style. Sung Kyu Maeng presents complex concepts in an approachable manner, making the book accessible to both experts and newcomers in the field of water treatment.
Readers have praised the book for its practicality and relevance to real-world water treatment challenges. The case studies and examples provided throughout the book serve as valuable references for professionals seeking to implement bank filtration systems in their own water treatment plants.
Furthermore, the book is not limited to theoretical discussions. It offers practical guidance and recommendations based on extensive research and field experience. This makes it an invaluable resource for water treatment professionals looking to improve the efficiency and sustainability of their operations.
This book has generated significant interest in the field of water treatment and has received highly positive reviews from readers. Water treatment professionals and researchers alike have found it to be an invaluable resource for exploring innovative solutions for drinking water treatment.
If you are a water treatment professional or researcher looking to expand your knowledge and explore sustainable and cost-effective water treatment solutions, “Bank Filtration for Drinking Water Treatment: Integrated Management Approaches” is the perfect addition to your library. Order your copy today and discover the invaluable insights it offers for enhancing the safety and quality of our drinking water.
Whether you are interested in the historical origins of bank filtration or the latest advancements in the field, this book provides a comprehensive overview of the topic. Its clear and concise writing style, practical guidance, and in-depth analysis make it a must-have resource for water treatment professionals and researchers alike. Join the many satisfied readers who have already benefited from the valuable insights presented in this book and order your copy today.
Product Details:
- Publisher: CRC Press; 1st edition (June 28, 2018)
- Language: English
- Format: eBook (Digital)
- Pages: 208
- ISBN-10: 1138406945
- ISBN-13: 978-1138406940
Product Details
- Publisher : CRC Press; 1st edition (June 28, 2018)
- Language : English
- Hardcover : 208 pages
- ISBN-10 : 1138406945
- ISBN-13 : 978-1138406940