Innovative wastewater treatment & resource recovery technologies : impacts on energy, economy and environment /

This book introduces the 3R concept applied to wastewater treatment and resource recovery under a double perspective. Firstly, it deals with innovative technologies leading to: Reducing energy requirements, space and impacts; Reusing water and sludge of sufficient quality; and Recovering resources s...

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Bibliographic Details
Call Number:Libro Electrónico
Other Authors: Lema, Juan M. (Editor), Suarez, Sonia (Editor)
Format: Electronic eBook
Language:Inglés
Published: London, UK : IWA Publishing, 2017.
Subjects:
Sewage > Purification.
Eaux usées > Épuration.
Sewage treatment & disposal.
TECHNOLOGY & ENGINEERING > Environmental > General.
Sewage > Purification
Industrial applications of scientific research & technological innovation.
Environmental science, engineering & technology.
Waste treatment & disposal.
Environment and Ecology.
Online Access:Texto completo
Table of Contents:
  • Cover; Copyright; Contents; List of contributors; About the editors; Preface: From Sanitary to Environmental Engineering. The 3R concept; From sanitary to environmental engineering; The 3 R concept in wastewater treatment; References; Part 1: Reducing Requirements and Impacts; Part 1a: Reducing Energy Requirements; Chapter 1: Nutrient removal; 1.1 Introduction; 1.1.1 Nutrient management regulation and implications on energy consumptions; 1.1.2 Biological nutrients removal processes: microbial and energy overview; 1.2 Reducing energy footprint now, by retrofitting.
  • 1.2.1 Sidestream technologies/systems1.2.2 Mainstream technologies/systems; 1.3 Reducing energy footprint tomorrow by re-thinking; 1.3.1 Mainstream systems; 1.4 Concluding remarks and sustainability indicators; 1.5 References; Chapter 2: Anaerobic treatment of municipal wastewater; 2.1 Introduction; 2.1.1 Energy nexus: Is anaerobic treatment a feasible way for municipal wastewater?; 2.2 Anaerobic reactor types for municipal wastewater treatment; 2.2.1 Anaerobic membrane bioreactor (AnMBR); 2.2.2 Upflow anaerobic sludge blanket reactor (UASB); 2.2.3 Expanded granular sludge bed reactor (EGSB).
  • 2.2.4 Anaerobic sequencing batch reactor (ASBR)2.2.5 Anaerobic baffled reactor (ABR); 2.2.6 Full scale applications; 2.2.7 Pilot scale applications; 2.2.8 Different lab-scale options
  • immobilization; 2.3 Modeling of anaerobic treatment systems; 2.3.1 Review of models; 2.3.2 Model selection for a given application; 2.4 Problems and future perspectives; 2.4.1 Problems; 2.4.2 Suggestions; 2.5 Future aspects; 2.6 Conclusions; 2.7 References; Chapter 3: Resource recovery from source separated domestic wastewater; energy, water, nutrients and organics; 3.1 Introduction.
  • 3.2 Resources and pollutants in domestic wastewater3.3 Anaerobic treatment core technology in 'new sanitation'; 3.3.1 Organic sludge and heavy metals; 3.3.2 Recovery of phosphorus during or after UASB treatment?; 3.3.3 Removal or recovery of nitrogen?; 3.4 Removal of micropollutants from black and grey water; 3.5 Multi-criteria assessment on environmental and social aspects in new sanitation; 3.6 New sanitation in practice in the netherlands; 3.7 Conclusions; 3.8 References; Chapter 4: Wastewater treatment in algal systems; 4.1 Introduction; 4.2 Fundamentals of microalgae based systems.
  • 4.2.1 Photosynthetic aeration, symbiosis and algal-bacterial interactions4.2.2 Carbon, nitrogen and phosphorous removal mechanisms; 4.2.3 Strain selection; 4.2.4 Influence of environmental parameters; 4.3 Microalgae based systems used for wastewater treatment; 4.3.1 Bioreactors; 4.3.2 CO2 Addition, implications in the process; 4.3.3 Harvesting of biomass; 4.4 Considerations for a real scale installation; 4.5 Conclusions; 4.6 References; Chapter 5: Niches for bioelectrochemical systems in sewage treatment plants; 5.1 Introduction; 5.1.1 Microbial fuel cells; 5.1.2 Microbial electrolysis cell.

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