Advanced Oxidation Processes for Effluent Treatment Plants provides a complete overview of the recent advances made in oxidation-based water treatment processes, including their limitations, challenges and potential applications in removing environmental pollutants. The book introduces new trends and advances in environmental bioremediation technology with a thorough discussion of recent developments in this field, with multiple biological and chemical wastewater treatment processes presented in detail. Additionally, every chapter explains the wastewater treatment plants that utilize these methods, illustrating them in terms of plant size, layout, design and installation location. New trends and advances in environmental bioremediation technology are also covered.
This is the go-to resources for engineers and scientists requiring an introduction to the principles of environmental bioremediation technologies.
Please Note: This is an On Demand product, delivery may take up to 11 working days after payment has been received.
Table of Contents
1. Industrial wastewater and persistent organic pollutants2. Wastewater detoxification and processes integration3. Toxicity and water reuse4. Bioremediation of Organic pollutants5. Bioremediation of Metals and Radionuclides6. Nanotechnology for remediation of organic pollutants7. Nitrate Pollution and its Remediation8. Bioremediation of Petroleum hydrocarbons9. Biofilms in Porous Media10. Algal role in effluent treatment11. Circular EconomyAuthors
Maulin P. Shah Chief Scientist and Head, Industrial Waste Water Research Lab, Division of Applied and Environmental Microbiology Lab at Enviro Technology Ltd., Ankleshwar, Gujarat, India.Dr. Maulin P. Shah is Chief Scientist and Head of the Industrial Wastewater Research Lab, Division of Applied and Environmental Microbiology Lab at Enviro Technology Ltd., Ankleshwar, Gujarat, India. His work focuses on the impact of industrial pollution on the microbial diversity of wastewater following cultivation-dependent and cultivation-independent analysis. His major work involves isolation, screening, identification, and genetically engineering high-impact microbes for the degradation of hazardous materials. His research interests include biological wastewater treatment, environmental microbiology, biodegradation, bioremediation, and phytoremediation of environmental pollutants from industrial wastewaters.