State of Knowledge of the Use of Sorption Technologies for Nutrient Recovery from Municipal Wastewaters Nutrients.

Cover -- Copyright -- Acknowledgments -- Abstract and Benefits -- Table of Contents -- List of Tables -- List of Figures -- List of Abbreviations and Acronyms -- Executive Summary -- Chapter 1.0: Problem Statement -- Chapter 2.0: Sustainability in Wastewater Treatment -- Chapter 3.0: Adsorption Literature -- 3.1 Nitrogen Speciation in Wastewater -- 3.2 Phosphorus Speciation in Wastewater -- 3.3 Characteristics of a Sorbent -- 3.3.1 Physical Characteristics of Sorbents -- 3.3.2 Chemical Characteristics of Sorbents -- 3.3.3 Models for Adsorption Mechanism Determination -- 3.3.4 Sorbents for Nutrient Recycling -- Chapter 4.0: Summary of Sorbent Research in Literature -- 4.1 Activated Carbon -- 4.1.1 Surface Modification of Activated Carbon -- 4.1.2 Activated Carbon for Nutrient Recovery -- 4.2 Natural Minerals as Sorbents -- 4.2.1 Surface Modification of Natural Mineral Sorbents -- 4.2.2 Natural Mineral Sorbents for Nutrient Recovery -- 4.3 Natural Zeolites -- 4.3.1 Natural Zeolites for Nutrient Recovery -- 4.4 Engineered Ion Exchange Resins -- 4.4.1 Engineered Ion Exchange Resins for Nutrient Recovery -- 4.5 Metal Oxides as Sorbents -- 4.5.1 Binary Metal Oxides as Sorbents -- 4.5.2 Desorption from Metal Oxides -- 4.5.3 Metal Oxides for Nutrient Recovery -- 4.6 Biowastes as Low-Cost Adsorbents -- 4.7 Adsorption of Phosphate and Ammonia Together -- Chapter 5.0: Summary of Literature Review -- Chapter 6.0: Gaps in the Research -- References.

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Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.