Towards a Renewable Future : State of the Science and Market Assessment.

Cover -- Copyright -- Acknowledgments -- Abstract and Benefits -- Table of Contents -- List of Tables -- List of Figures -- List of Acronyms -- Executive Summary -- ES.1 Project Overview -- ES.2 Project Approach and Schedule -- ES.3 Lack of Knowledge as Well as Limited Finances Can Limit Implementation of Extractive Nutrient Recovery at WRRFs -- ES.4 A Three-Step Framework for Implementing Extractive Nutrient Recovery is Recommended -- ES.5 There Exists Significant Demand for Chemical Nutrient Products Resulting from Extractive Nutrient Recovery -- ES.6 Struvite Products Have Unique Characteristics That Can Improve Marketability and Value Versus Traditional Fertilizers -- ES.7 Implementing Struvite Recovery at WRRFs Can Result in Multiple Benefits -- Chapter 1.0: Introduction -- 1.1 Project Rationale -- 1.2 Industry Barriers Against Extractive Nutrient Recovery Processes -- Chapter 2.0: Critical Review of Extractive Nutrient Recovery Technology Options -- 2.1 Summary of Extractive Nutrient Recovery Technology Options -- 2.2 Traditional Linear Approaches to Nutrient Use -- 2.3 Nutrient Accumulation Technologies -- 2.3.1 Prokaryotic Accumulation -- 2.3.2 Algae-Accumulation -- 2.3.3 Plant Nutrient Accumulation -- 2.3.4 Chemical Accumulation through Precipitation -- 2.3.5 Adsorption\Ion Exchange -- 2.3.6 Magnetic Separation -- 2.4 Nutrient Release Technologies -- 2.4.1 Biological Release -- 2.4.2 Thermochemical Stabilization and Chemical Release -- 2.4.3 Bio-Leaching -- 2.5 Nutrient Extraction and Recovery Technologies -- 2.5.1 Chemical Precipitation/Crystallization -- 2.5.2 Liquid-Gas Stripping -- 2.5.3 Gas Permeable Membrane and Absorption -- 2.5.4 Liquid-Liquid Extraction -- 2.5.5 Electrodialysis -- 2.6 Evaluating Extractive Nutrient Recovery Technologies -- 2.6.1 Impact of Waste Stream Characteristics on Technology Selection.

2.6.2 Potential Recoverable Nutrient Products -- 2.6.2.1 Biomass -- 2.6.2.2 Biosolids -- 2.6.2.3 Char and Ash -- 2.6.2.4 Chemical Nutrient Products -- 2.6.3 Potential Recoverable Non-Nutrient Products -- 2.6.3.1 Biogas and Biofuel -- 2.6.3.2 Polyhydroxyalkanoates -- 2.6.3.3 Hydrogen, Hydrogen Peroxide, and Sodium Hydroxide -- 2.6.3.4 Nutraceuticals -- 2.6.3.5 Other Products -- 2.7 Considerations for Implementing Extractive Nutrient Recovery -- 2.8 Future Research Directions -- Chapter 3.0: Market Analysis of Recovered Chemical Nutrient Products -- 3.1 Identification of Chemical Nutrient Product(s) -- 3.2 Chemical Nutrient Product Requirements -- 3.3 Chemical Nutrient Product Usage Trends -- 3.3.1 United States Regional Usage Trends -- 3.3.1.1 New England Regional Usage Trends -- 3.3.1.2 Mid-Atlantic Regional Usage Trends -- 3.3.1.3 South-Atlantic Regional Usage Trends -- 3.3.1.4 East North Central Regional Usage Trends -- 3.3.1.5 West North Central Regional Usage Trends -- 3.3.1.6 East South Central Regional Usage Trends -- 3.3.1.7 West South Central Regional Usage Trends -- 3.3.1.8 Mountain Regional Usage Trends -- 3.3.1.9 Pacific Regional Usage Trends -- 3.3.1.10 Alaska, Hawaii, and Puerto Rico Usage Trends -- 3.4 Potential Short-Term Markets for Sale of Recovered Nutrient Products -- 3.5 Chemical Nutrient Product Pricing History -- 3.6 Expected Marketability of Struvite versus Traditional Synthetic Fertilizers -- 3.7 Effects of Nutrient Recovery on Biosolids Values and Marketability -- 3.8 Alternative Uses for Chemical Nutrient Products -- Chapter 4.0: Making the Case for Implementing Nutrient Recovery at Water Resource Recovery Facilities -- 4.1 Benefits of Nutrient Recovery Options -- 4.2 Addressing Concerns With Adopting Nutrient Recovery -- 4.3 Specific Recovery Operation Recommendations -- Chapter 5.0: Conclusions and Future Work.

5.1 Conclusions and Future Research Directions -- Appendix A: Historical Fertilizer Use Data for United States -- 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.