Traditional and Novel Adsorbents for Antibiotics Removal from Wastewater describes, in detail, the importance of removing antibiotics from aqueous systems, along with new information on their variation, solubility, toxicology and allowable concentration in groundwater. The book covers adsorption as an applicable method, highlighting its advantages and disadvantages. It investigates various adsorbents ranging from traditional activated carbons, modified forms of clays, metal oxides, polymer resins, and more advanced materials such as graphene-based, MOF, nano-matrices, and composite materials as potential sorbents for the adsorption of antibiotics from aqueous solutions.
In addition, the book covers biological microorganisms that have been used to remove antibiotics from wastewater and presents biopolymers, biowaste and living cells potentially and practically suitable for this purpose. For all adsorbents, the book explains preparation methods, main properties, modification techniques to increase antibiotic removal efficiency, mechanisms in antibiotic removal, advantages and limitations. It also presents adsorption-desorption in batch and continuous mode, optimized operating parameters, kinetic and equilibrium adsorption, and regeneration studies.
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. Adsorption: a reliable solution for emerging contaminants removal2. Adsorption process of antibiotics by carbon-based adsorbents
3. Adsorption process of antibiotics by clay-based materials
4. Adsorption process of antibiotics by novel adsorbents
5. Biosorption process for antibiotics removal
6. Hybrid technologies including adsorption for antibiotics removal
Authors
Seyedmehdi Sharifian Davidson School of Chemical Engineering, Purdue University, West Lafayette, IN, United States. Seyedmehdi Sharifian received his PhD in chemical engineering from the Vienna University of Technology and then worked as a postdoctoral researcher at the University of Tehran. From 2018 to 2022, he worked as an assistant professor at the same university. He was the head of the Sustainable and Green Chemical Processes Research Laboratory. Now he is a postdoctoral research associate at Purdue University. His research interest is generally in separation processes in chemical processes. One of his major research interests is wastewater treatment systems by adsorption and oxidation processes. In addition to being the author of numerous scientific papers, he is also a reviewer for many relevant journals, mainly in the areas of wastewater treatment, water quality, oxidation processes, and processing of biowaste into value-added products. Mika Sillanp��Mika Sillanp��'s research work centers on chemical treatment in environmental engineering and environmental monitoring and analysis. The recent research focus has been on the resource recovery from waste streams.
Sillanp�� received his M.Sc. (Eng.) and D.Sc. (Eng.) degrees from the Aalto University where he also completed an MBA degree in 2013. Since 2000, he has been a full professor/adjunct professor at the University of Oulu, the University of Eastern Finland, the LUT University, the University of Eastern Finland and the University of Johannesburg.
Neda Asasian-Kolur .Technische Universit�t Wien, Institute of Chemical, Environmental and Bioscience Engineering, Getreidemarkt 9/166, A1060 Vienna, Austria..Chemical Engineering Department, Fouman Faculty of Engineering College of Engineering, University of Tehran, Iran.. Neda Asasian-Kolur received her Ph.D. in Chemical Engineering from the Amirkabir University of Technology in 2013. She has been an assistant professor at the University of Tehran since 2017, and is currently working as a post-doc at Vienna University of Technology (TU Wien). She is the head of the adsorption research laboratory at the University of Tehran, and every year many graduates complete their studies under her supervision. To date, she has authored many peer-reviewed publications on environment-related topics. Her research interests include wastewater treatment, adsorption processes, preparation, surface functionalization, and characterization of adsorbents/catalysts for environmental purposes. She is the reviewer of many well-known journals in environmental chemistry research fields.
