Skip to main content
Elsevier

Municipal Wastewater Treatment

Advanced Technologies in Wastewater Treatment

  • 1st Edition - June 4, 2025
  • Latest edition
  • Editors: Angelo Basile, Alfredo Cassano, Kamran Ghasemzadeh
  • Language: English

Municipal Wastewater Treatment: Advanced Technologies in Wastewater Treatment provides updated information on existing technologies for municipal wastewater treatment. The book f… Read more

Description

Municipal Wastewater Treatment: Advanced Technologies in Wastewater Treatment provides updated information on existing technologies for municipal wastewater treatment. The book focuses on efficient technologies and environmental control strategies in the field of municipal wastewater and covers below listed strategies that can be used in municipal wastewater treatment, depending on the specific needs and goals of the treatment plant: (a) Preliminary treatment: This involves screening out large objects like sticks, rocks, and plastics, and removing grit and sand that can damage pumps and other equipment. (b) Primary treatment: In this stage, wastewater is settled in large tanks, allowing solids to stele to the bottom and oils and greases to rise to the surface, where they can be skimmed off. (c) Secondary treatment: This stage uses biological processes to further treat the wastewater. One common method is the activated sludge process, which involves aerating the wastewater and adding microorganism that consumes organic matter. Another method is the trickling filter process, which uses a bed of rocks of other materials to support microorganisms that break down organic matter. (d) Tertiary treatment: This is an optional stage that can be used to further remove nutrients, pathogens, and other pollutants from the wastewater. Common methods include sand filtration, membrane filtration, and disinfection with chemicals like chlorine or ultraviolet light. (e) Sludge treatment and disposal: The solids that are removed during primary and secondary treatment, known as sludge, must be further treated before they can be safely disposed of or used. Common methods include anaerobic digestion, composting, and drying. Municipal Wastewater Treatment sheds light and gives a broad but very detailed view on above mentioned issues from an industrial chemical engineering point of view.

Key features

  • Includes latest developments in municipal wastewater treatment
  • Describes emerging technologies for pollution control
  • Considers the integration of conventional and innovative procedures to decrease waste, energy and water use

Readership

(Post)-graduate students, professors and academic researchers in chemical engineering, chemistry, environmental engineering, R&D managers in municipal wastewater treatment

Table of contents

1. Introduction to municipal wastewater treatments

2. Emerging contaminants in municipal wastewater

3. Sequential batch bioreactors

4. Membrane bioreactors

5. Aeration systems for wastewater treatments

6. Moving bed biofilm reactor

7. Membrane based processes for municipal wastewater reuse

8. Membrane aerated biofilm reactors

9. Wastewater disinfection

10. Anaerobic digestion

11. Emerging technologies for sludge management

12. Forward osmosis for municipal wastewater

13. Emerging wastewater disinfection technologies

14. New technologies and equipment for online monitoring of wastewater

15. Modelling of municipal biological wastewater

16. Advancements on the technologies for municipal wastewater excess sludge

Product details

  • Edition: 1
  • Latest edition
  • Published: June 25, 2025
  • Language: English

About the editors

AB

Angelo Basile

Angelo Basile is a Full Professor and a leading authority in membrane science and technology. Since 2014, he has served as Full Professor in Systems, Methods and Technologies of Chemical Engineering Processes at CNR-ITM in Rende, Italy. His work covers hydrogen purification and production using membrane reactors, CO₂ capture, process intensification, and the treatment of industrial effluents with advanced membrane operations. Basile has edited many scientific books and authored numerous book chapters, bridging complex research with clear knowledge for engineers and scientists. Motivated by the role of AI/ML in accelerating membrane process design and automation, he supports integrating data-driven methods for smart plants and reaction–separation optimisation.

Affiliations and expertise
Senior Researcher, ITM-CNR, University of Calabria, Italy

AC

Alfredo Cassano

Alfredo Cassano has worked as a Researcher at CNR-ITM in Italy since 2000. Trained in Biology, he specializes in membrane science and technology, including conventional membrane processes, membrane contactors, and integrated membrane operations used for wastewater treatment and agro-food applications. He has led or directed research through numerous national MIUR-funded projects, as well as European Union international projects and industry collaborations. Cassano contributes to the scientific community through editorial-board roles and has co-authored several books, numerous journal articles, and chapters, alongside conference and invited work, and two national patents. His interests include recovering bioactive compounds from by-products, membrane distillation, osmotic distillation, and wastewater remediation, motivated by bridging membrane technology with practical AI/ML and real-time monitoring to advance circular economy resource recovery.
Affiliations and expertise
Senior Researcher, Institute on Membrane Technology of the Italian National Research Council, ITM-CNR, University of Calbria, Rende, Italy

KG

Kamran Ghasemzadeh

Kamran Ghasemzadeh is currently working as a senior research associate at the chemical engineering department, University of Manchester, UK since August 2022. At the same time, he has served as an associate professor in the chemical engineering department at Urmia University of Technology, Iran, wherein he developed research on membranes/membrane reactors for many processes.

Kamran Ghasemzadeh’s h-index = 21, with 126 document results in a total of 1135 citations in the areas: Energy, Chemical Engineering, Environmental Science, and membrane technologies, (www.scopus.com – March 30/2023). He has more than 50 papers published in national/international congresses; and is a reviewer for 70 int. journals, an editor/author of more than 10 scientific books, and 45 chapters on int. books on membrane science and technology. Today Ghasemzadeh is collaborating with the Dept. of chem. Eng. at the University of Manchester (UK) on the valorisation of biomass by-products. He participated in various national and international projects on membrane reactors and membrane science. In the last years, he was the supervisor/co-supervisor of more than 38 Thesis for Master and Ph.D. students. Ghasemzadeh served as Director of the UUT research center during the period Sep. 2018 – April 2022.

Affiliations and expertise
Institute for Materials and Processes, School of Engineering, University of Edinburgh, Edinburgh, UK

View book on ScienceDirect

Read Municipal Wastewater Treatment on ScienceDirect