Innovative Technologies for the Treatment of Industrial Wastewater
A Sustainable Approach
This book highlights advances in sustainable wastewater treatment technologies, particularly biological wastewater treatment, cavitation-based treatment, hybrid water treatment, membrane technologies, advance oxidation processes, and adsorption. The book focuses on a variety of advanced treatment techniques that are useful for the degradation of organic components, dyes, heavy metals effluent, etc. in wastewater.
Industrial wastewater consists of variety of discharges based on the type of industry, such as the dairy/food industries, which generate more fats and high BOD value with variation in the pH value, while the electroplating industry may expel more inorganic matter and dissolved solids. The oil extraction industries will have more solvents contained in the effluent, and dyes and textiles industry create a higher organic load with high TDS. Hence, every type of manufacturing industry needs a different method for the treatment of its effluents.
Looking at the use of intensified chemical processes in order to make cleaner environment, Innovative Technologies for the Treatment of Industrial Wastewater explores the new and innovative methods for pollutant removal that will prove useful for a variety of industries.
Conventional wastewater treatment processes require a significant amount of energy and involve expensive equipment and maintenance. Sustainable wastewater treatment technologies, however, involve less generation of energy and employ more economically feasible treatment methods, requiring less equipment and fewer maintenance costs. Looking at the use of intensified chemical processes in order to make a cleaner environment, this volume explores new and innovative methods for pollutant removal that will prove useful for a variety of industries. This book highlights advances in sustainable wastewater treatment technologies, particularly biological wastewater treatment, cavitation-based treatment, hybrid water treatment, membrane technologies, advanced oxidation processes, and adsorption.
Table of Contents
Removal of Fluoride in Water Using Amorphous Nano Metal Oxides
Joseph Govha, T. Bala Narsaiah, and Ch. Shilpa Chakra
Biological Nitrification in a Batch Gas Liquid-Solid Bioreactor
P. B. N. Lakshmi Devi and Y. Pydi Setty
Ultrasound-Assisted Formation of Stable Emulsion and Its Applications as Liquid Emulsion Membrane in Wastewater Treatment
Zar Zar Nwe, S. Srinu Naik, Shirish Sonawane, and Y. Pydi Setty
Wastewater Treatment by Inverse Fluidization Technology
Removal of Pb2+ from Water Using Silica Nano Spheres Synthesized on CaCO3
as a Template – Adsorption Kinetics
Milton Manyangadze, J. Govha, T. Bala Narsaiah, Ch Shilpa Chakra, and P. Akhila Swanthanthra
A Study on Adsorption Kinetics of Azadirachta indica (Neem) and Ficus religiosa (Pipal) for Removal of Fluoride from Drinking Water
M. Jaipal and P. Dinesh Sankar Reddy
Adsorption Studies on Removal of Cadmium (II) from Aqueous Solution
P. Akhila Swanthanthra, S. Nawaz Bahamani, and Bhavana
Hydrodynamic Cavitation for Distillery Wastewater Treatment: A Review
Dipak K. Chandre, Chandrakant R. Holkar, Ananda J. Jadhav, Dipak V. Pinjari, and Aniruddha B. Pandit
Microwave- and Ultrasound-Assisted Surfactant Treated Adsorbent for the Efficient Removal of Emulsified Oil from Wastewater
P. Augusta, P, Kalaichelvi, K. N. Sheeba, and A. Arunagiri
External Mass Transfer Studies on Adsorption of Methylene Blue on Psidium guava Leaves Powder
R. W. Gaikwad, S. L. Bhagat, and A. R. Warade
The Role of TiO2Nanoparticles on Mixed Matrix Cellulose Acetate Asymmetric Membranes
Shirish H. Sonawane, Antonine Terrien, Ana Sofia Figueiredo, M. Clara Goncalves, and Maria Norberta De Pinho
A Study on Performance Evaluation of Tertiary Dye Mixture Degradation by Hybrid Advanced Oxidation Process
Bhaskar Bethi and S. H. Sonawane