Resource Recovery in Municipal Waste Waters provides various municipal wastewater remediation methods and techniques to recover materials from such wastewaters. Sections cover the basic principles of resource recovery, along with the recovery of methane, phosphorous, electricity and metals. The volume covers comprehensive cutting-edge techniques for resource recovery and municipal wastewater treatment and reports on new findings in these areas. It also introduces polluted waters as new and sustainable sources rather than seeing wastewaters as a source of hazardous organic and inorganic matters. The main advantages and disadvantages of both wastewater/polluted water treatment and recovery are also discussed.
This three-volume set stresses the importance of contaminated waters remediation, including surface waters, municipal or industrial wastewaters, treating these waters as a new source of nutrients, minerals and energy.
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Table of Contents
1. Resource recovery versus wastewater treatment2. Potential of the current market and status toward municipal wastewater resource recovery
3. Methane recovery from municipal wastewater treatment plants
4. Biohydrogen recovery from municipal wastewater treatment plants
5. Nitrogenous fuels recovery from municipal wastewater treatment plants
6. Electricity recovery from municipal wastewater treatment plants
7. Nitrogen recovery from municipal wastewater treatment plants
8. Phosphorous recovery from municipal wastewater treatment plants
9. Cellulose recovery from municipal wastewater treatment plants
10. Volatile fatty acids recovery from municipal wastewater treatment plants
11. Sulfate/Sulfur recovery from municipal wastewater treatment plants
12. Chemical precipitation technology for resource recovery from municipal wastewater treatment plants
13. Adsorption technology for resource recovery from municipal wastewater treatment plants
14. Wet-chemical process for resource recovery from municipal wastewater treatment plants
15. Thermochemical process for resource recovery from municipal wastewater treatment plants
16. Biological processes for resource recovery from municipal wastewater treatment plants
17. Membrane distillation for resource recovery from municipal wastewater treatment plants
18. Microbial electrolysis cell and microbial recovery cell application for resource recovery from municipal wastewater treatment plants
19. Microalgae-based processes for resource recovery from municipal wastewater treatment plants
20. Forward osmosis-extraction hybrid process for resource recovery from municipal wastewater treatment plants
21. Metal recovery from municipal wastewater treatment plants
Authors
Mika Sillanp��Mika Sillanp��'s research work centers on chemical treatment in environmental engineering and environmental monitoring and analysis. The recent research focus has been on the resource recovery from waste streams.
Sillanp�� received his M.Sc. (Eng.) and D.Sc. (Eng.) degrees from the Aalto University where he also completed an MBA degree in 2013. Since 2000, he has been a full professor/adjunct professor at the University of Oulu, the University of Eastern Finland, the LUT University, the University of Eastern Finland and the University of Johannesburg.
Ali Khadir Environmental Engineer, Islamic Azad University of Shahre Rey Branch, Tehran, Iran. Ali Khadir is an environmental engineer and a member of the Young Researcher and Elite Club, Islamic Azad University of Shahre Rey Branch, Tehran, Iran. He has published/prepared several articles and book chapters in reputed international publishers, including Elsevier, Springer, Taylor & Francis and Wiley. His articles have published in journals with IF > 4, including Journal of Environmental Chemical Engineering and International Journal of Biological Macromolecules. He also has been the reviewer of journals and international conferences. His research interests center on emerging pollutants, dyes and pharmaceuticals in aquatic media, advanced water and wastewater remediation techniques and technology. At present, he is editing other books for Springer in the field of nanocomposites, advanced materials, and the remediation of dye - containing wastewaters. Khum Gurung Post-doctoral Researcher, Department of Separation Science, LUT University, Finland. Dr. Khum Gurung is a post-doctoral researcher in the Department of Separation Science at LUT University, Finland. He holds a PhD in Green Chemical Technology from LUT University in 2019. He has an excellent research experiences on various R&D works related to environmental engineering. He has published several peer-reviewed articles in internationally acknowledged publishers, such as Elsevier, Springer, MDPI etc. Most of his articles have published in high ranked international journals with impact factor of more than 5 since 2015, leading to his current h-index of 7, which are cited more than 230 times. Moreover, he has been the reviewer for many international journals and conference papers actively since 2016. His research mainly focuses on state-of-the-art as well as cutting-edge solutions for water/wastewater treatment (industrial and municipal), recovery of value-added resources from wastewater, energy sustainability in wastewater treatment plants, remediation of emerging pollutants from water/wastewater etc.