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Membrane Contactor Technology


Membrane Contactor Technology

Water Treatment, Food Processing, Gas Separation, and Carbon Capture
1. Aufl.

von: Mohammad Younas, Mashallah Rezakazemi

124,99 €

Verlag: Wiley-VCH
Format: PDF
Veröffentl.: 30.11.2021
ISBN/EAN: 9783527831029
Sprache: englisch
Anzahl Seiten: 368

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Beschreibungen

<b>An eye-opening exploration of membrane contactors from a group of industry leaders</b> <p>In <i>Membrane Contactor Technology: Water Treatment, Food Processing, Gas Separation, and Carbon Capture,</i> an expert team of researchers delivers an up-to-date and insightful explanation of membrane contactor technology, including transport phenomena, design aspects, and diverse process applications. The book also includes explorations of membrane synthesis, process, and module design, as well as rarely discussed process modeling and simulation techniques. <p>The authors discuss the technical and economic aspects of this increasingly important technology and examine the geometry, flow, energy and mass transport, and design aspects of membrane contactor modules. They also cover a wide range of application opportunities for this technology, from the materials sciences to process engineering. <p><i>Membrane Contactor Technology</i> also includes: <ul> <li>A thorough introduction to the membrane contactor extraction process, including dispersion-free membrane extraction processes and supported liquid membrane processes</li> <li>Comprehensive explorations of membrane transport theory, including discussions of diffusional mass and heat transfer modeling, as well as numerical modeling</li> <li>In-depth examinations of module configuration and geometry, including design and flow configuration</li> <li>Practical discussions of modes or operation, including membrane distillation, osmotic evaporation, and forward osmosis</li> </ul> <p>Perfect for process engineers, biotechnologists, water chemists, and membrane scientists, <i>Membrane Contactor Technology</i> also belongs in the libraries of chemical engineers, polymer chemists, and chemists working in the environmental industry.
1.INTRODUCTION<br> <br> 2.MEMBRANE CONTACTOR EXTRACTION PROCESS<br> <br> 2.1.Dispersion free membrane extraction process<br> 2.2.Supported liquid membrane (SLM) extraction process<br> 2.3.Emulsion Liquid membrane (ELM) extraction process<br> <br> 3.MEMBRANE TRANSPORT THEORY: OPERATIONAL PRINCIPLE<br> 3.1 Diffusional mass and heat transfer modeling<br> 3.2 Numerical modeling <br> <br> 4.MODULE CONFIGURATION/GEOMETRY<br> <br> 4.1.Design configuration<br> 4.2.Flow configuration<br> <br> 5.MODE OF OPERATION <br> <br> 5.1.Membrane distillation<br> 5.2.Osmotic evaporation<br> 5.3.Forward osmosis<br> 5.4.Pressure retarded osmosis<br> 5.5.Sweep gas<br> <br> 6.APPLICATIONS OF MC TECHNOLOGY <br> <br> 6.1.Liquid-liquid contactor<br> Organic acids, food, petroleum, organic contaminants and other organic material extraction<br> Hydrometallurgy/heavy metals<br> <br> 6.2.Liquid-gas contactor<br> CO2 and petrochemical gas streams like VOCs, SO2, H2S etc removal<br> Air dehumidification<br> <br> 6.3.Gas-Gas contactor<br> CO2 capture from coal fired power plants<br> <br> 7.MARKET PROSPECTS OF MCs<br> <br> 8.CONCLUSION AND OUTLOOK<br> <br> <br>
<p><i><b>Mohammad Younas, PhD,</b> is Department Head of Chemical Engineering at the University of Engineering & Technology, Peshawar, Pakistan. His research is focused on the modeling and simulation of membrane contactors.</i></p> <p><i><b>Mashallah Rezekazemi, PhD,</b> is Professor of the Faculty of Chemical and Materials Engineering at the Shahrood University of Technology. His research is focused on membrane-based processes for energy-efficient desalination, CO2 capture, gas separation, and wastewater reuse.</i>
<p><b>An eye-opening exploration of membrane contactors from a group of industry leaders</b></p> <p>In <i>Membrane Contactor Technology: Water Treatment, Food Processing, Gas Separation, and Carbon Capture,</i> an expert team of researchers delivers an up-to-date and insightful explanation of membrane contactor technology, including transport phenomena, design aspects, and diverse process applications. The book also includes explorations of membrane synthesis, process, and module design, as well as rarely discussed process modeling and simulation techniques. <p>The authors discuss the technical and economic aspects of this increasingly important technology and examine the geometry, flow, energy and mass transport, and design aspects of membrane contactor modules. They also cover a wide range of application opportunities for this technology, from the materials sciences to process engineering. <p><i>Membrane Contactor Technology</i> also includes: <ul><li>A thorough introduction to the membrane contactor extraction process, including dispersion-free membrane extraction processes and supported liquid membrane processes</li> <li>Comprehensive explorations of membrane transport theory, including discussions of diffusional mass and heat transfer modeling, as well as numerical modeling</li> <li>In-depth examinations of module configuration and geometry, including design and flow configuration</li> <li>Practical discussions of modes or operation, including membrane distillation, osmotic evaporation, and forward osmosis</li></ul> <p>Perfect for process engineers, biotechnologists, water chemists, and membrane scientists, <i>Membrane Contactor Technology</i> also belongs in the libraries of chemical engineers, polymer chemists, and chemists working in the environmental industry.

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