Wastewater Engineering: Treatment and Resource Recovery

TL;DR: In this paper, the analysis of flow in pipes is performed using Moody diagrams and non-ideal flow in Reactors is modeled using tracers in order to model nonideal flows in reactors.

Abstract: 1. Introduction to Wastewater Treatment and Process Analysis 2. Wastewater Characteristics 3. Wastewater Flowrates and Constituent Loadings 4. Wastewater Treatment Process Selection, Design, and Implementation 5. Physical Unit Operations 6. Chemical Unit Processes 7. Fundamentals of Biological Treatment 8. Suspended Growth Biological Treatment Processes 9. Attached Growth and Combined Biological Treatment Processes 10. Anaerobic Suspended and Attached Growth Biological Treatment Processes 11. Separation Processes for Removal of Residual Constituents 12. Disinfection Processes 13. Processing and Treatment of Sludges 14. Biosolids Processing, Resource Recovery and Beneficial Use 15. Plant Recycle Flow Treatment and Nutrient Recovery 16. Air Emissions from Wastewater Treatment Facilities and Their Control 17. Energy Considerations in Wastewater Management 18. Wastewater Management: Future Challenges and Opportunties Appendixes A Conversion Factors B Physical Properties of Selected Gases and the Composition of Air C Physical Properties of Water D Statistical Analysis of Data E Dissolved Oxygen Concentration in Water as a Function of Temperature, Salinity and Barometric Pressure F Carbonate Equilibrium G Moody Diagrams for the Analysis of Flow in Pipes H Analysis of Nonideal Flow in Reactors Using Tracers I Modeling Nonideal Flow in Reactors