Produktdetails
Titel: Intensification of Sorption Processes
Autor/en: Mahmood (Chemical Engineering Department, Yasouj University, Yasouj, Iran) Reza Rahimi, Soleiman (Department of Gas and Petroleum, Yasouj University, Gachsaran, Iran) Mosleh
ISBN: 0128214112
EAN: 9780128214114
Active and Passive Mechanisms.
Approx. 150 illustrations; Illustrations, unspecified.
Sprache: Englisch.
Elsevier Science Publishing Co Inc
26. November 2021 - kartoniert - 278 Seiten
Beschreibung
Intensification of Sorption Processes: Active and Passive Mechanisms introduces a number of selected, advanced topics in sorption processes/process intensification, covering both theoretical and applicable aspects. The first part of the book is devoted to the study of sorption processes based on active mechanisms, including ultrasonic, microwave, high-gravity, electrical and magnetic fields, while the second part covers passive mechanisms like nanostructures and nanofluids, membrane, supercritical fluids and sorption processes based on geometry design and equipment structure. The focus of the book is on key aspects of novel process intensification technologies (processes and equipment), i.e., absorption and adsorption, working principles, and design and applications.
Inhaltsverzeichnis
Part I: Active mechanisms 1. Ultrasonic and Microwave assisted Sorption processes 2. Sorption processes under high-gravity (Higee) field 3. Electric and magnetic-assisted sorption processes
Part II: Passive Mechanisms 4. Sorption processes using nanostructures and nanofluids 5. Membrane-based Sorption processes 6. Sorption based on the geometry design and equipment structure 7. Sorption processes using supercritical fluids (SCFs)
Portrait
Mahmood Reza Rahimi is professor of chemical engineering and the founder and head manager at the Process Intensification Laboratory, Yasouj University, Ysouj, Iran. He teaches courses in advanced mass transfer, process intensification, computational fluid dynamics (CFD), multicomponent separation methods, mass transfer, and unit operation. His research interests encompass design, modelling and simulation of chemical processes, process intensification, synergy, nanotechnology, fluidized beds, computational fluid dynamics (CFD), and multiphase flow. He obtained a PhD in chemical engineering in 2007.