Sustainable Separation Engineering, 2 Volume Set

Explore an insightful collection of resources exploring conventional and emerging materials and techniques for separations

In Sustainable Separation Engineering: Materials, Techniques and Process Development, a team of distinguished chemical engineers delivers a comprehensive discussion of the latest trends in sustainable separation engineering. Designed to facilitate understanding and knowledge transfer between materials scientists and chemical engineers, the book is beneficial for scientists, practitioners, technologists, and industrial managers.

Written from a sustainability perspective, the status and need for more emphasis on sustainable separations in the chemical engineering curriculum is highlighted. The accomplished editors have included contributions that explore a variety of conventional and emerging materials and techniques for efficient separations, as well as the prospects for the use of artificial intelligence in separation science and technology.

Case studies round out the included material, discussing a broad range of separation applications, like battery recycling, carbon sequestration, and biofuel production. This edited volume also provides:

• Thorough introductions to green materials for sustainable separations, as well as advanced materials for sustainable oil and water separation
• Comprehensive explorations of the recycling of lithium batteries and ionic liquids for sustainable separation processes
• Practical discussions of carbon sequestration, the recycling of polymer materials, and AI for the development of separation materials and processes
• In-depth examinations of membranes for sustainable separations, green extraction processes, and adsorption processes for sustainable separations

Perfect for academic and industrial researchers interested in the green and sustainable aspects of separation science, Sustainable Separation Engineering: Materials, Techniques and Process Development is an indispensable resource for chemical engineers, materials scientists, polymer scientists, and renewable energy professionals.Eine inspirierende Sammlung von Beiträgen über konventionelle und neuartige Materialien und Trenntechniken

In Sustainable Separation Engineering: Materials, Techniques and Process Development werden die neuesten Trends im Bereich der nachhaltigen Trennverfahren von einem Team renommierter Chemieingenieure umfassend erörtert. Das Werk möchte den Austausch und den Wissenstransfer zwischen Materialwissenschaftlern und Chemieingenieuren erleichtern und richtet sich an Wissenschaftler, Trenntechniker, Technologen und Manager von Industrieunternehmen.

Unter dem Aspekt der Nachhaltigkeit betonen die Autoren die Bedeutung und den Bedarf nach einer stärkeren Schwerpunktsetzung auf nachhaltige Trennverfahren in den Lehrplänen der Chemietechnik. Die renommierten Herausgeber haben Beiträge zusammengestellt, die sich mit einer Vielzahl konventioneller und neuartiger Materialien und effizienten Trennverfahren beschäftigen sowie mit der Möglichkeit, in der theoretischen und praktischen Anwendung der Trenntechnik in Zukunft künstliche Intelligenz einzusetzen.

Ergänzt werden die Beiträge um Fallstudien, in denen zahlreiche unterschiedliche Anwendungen dargestellt werden, beispielsweise das Batterierecycling, die Kohlenstoffbindung und die Produktion von Biokraftstoffen. Darüber hinaus enthält das Werk:
* Eine umfassende Einführung in umweltfreundliche Materialien für nachhaltige Trennverfahren sowie moderne Materialien für die nachhaltige Öl- und Wasserabscheidung
* Eine ausgiebige Betrachtung des Recyclings von Lithiumbatterien und ionischen Flüssigkeiten in Bezug auf nachhaltige Trennverfahren
* Praktische Erörterungen der Kohlenstoffbindung, des Recyclings von Polymermaterialien und der Nutzung von KI für die Entwicklung von Trennmaterialien und -verfahren
* Die vertiefende Erforschung von Membranen für nachhaltige Trenntechniken, umweltfreundliche Extraktionsverfahren und Adsorptionsverfahren für nachhaltige Trenntechniken

About the Editors vii

List of Contributors ix

Preface xv

Volume I

1 Electrochemically Mediated Sustainable Separations in Water 1

Kai-Jher Tan and T. Alan Hatton

2 Green and Sustainable Extraction of High-Value Compounds: Protein from Food Supply Chain Waste 63

Karine Zanotti, Aylon Matheus Stahl, Mateus Lodi Segatto, and Vânia Gomes Zuin

3 Separation Processes for Sustainable Produced Water Treatment and Management 105

Lanre M. Oshinowo, Young Chul Choi, Elaf A. Ahmed, and Hasan A. Al Abdulgader

4 Applications of Ultrasound in Separation Processes 155

Shankar B. Kausley, Gaurav G. Dastane, Rajshree A. Patil, Ananda J. Jadhav, Ketan S. Desai, and Aniruddha B. Pandit

5 The Role of Chemical Looping in Industrial Gas Separation199

Vedant Shah, Kalyani Jangam, Anuj Joshi, Pinak Mohapatra, Eric Falascino, and Liang-Shih Fan

6 Flow Technologies for Efficient Separations 239

Nopphon Weeranoppanant, Chetsada Khositanon, Trevor Murray, and Andrea Adamo

7 Sustainable Features of Centrifugal Partition Chromatography 261

Gergo ̋ Dargó and Árpád Könczöl

8 Liquid Membrane Technology for Sustainable Separations 297

Pablo López-Porfiri, María González-Miquel, and Patricia Gorgojo

9 Membrane-Enabled Sustainable Biofuel Production 343

Parimal Pal and Ramesh Kumar

10 Janus Membranes for Water Purification and Gas Separation 367

Jing Deng, Sepideh Razavi, and Michele Galizia

Volume II

11 Adsorption Processes for Seawater Desalination 401

Qian Chen, Muhammad Burhan, Faheem Hassan Akhtar, Doskhan Ybyraiymkul, M. Kumja, Muhammad Ahmad Jamil, Muhammad Wakil Shahzad, and Kim Choon Ng

12 Sustainable Distillation Processes 431

Mirko Skiborowski, Kai Fabian Kruber, and Thomas Waltermann

13 Recovery of Solvents and Fine Chemicals 483

Yus Donald Chaniago and Moonyong Lee

14 Toward Green Extraction Processes 519

Marinela Nutrizio, Farid Chemat, Rattana Muangrat, Phisit Seesuriyachan, Yuthana Phimolsiripol, Francesco Donsi, and Anet Režek Jambrak

15 Cellulose Nanofibers for Sustainable Separations 563

Priyanka R. Sharma, Xiangyu Huang, Mengying Yang, Sunil K. Sharma, and Benjamin S. Hsiao

16 Recycling of Lithium Batteries 591

Mario Pagliaro and Francesco Meneguzzo

17 Deep Eutectic Solvents for Sustainable Separation Processes 605

Filipe H. B. Sosa, Mariana C. da Costa, Armando J. D. Silvestre, and André M. da Costa Lopes

18 Microfluidic Platforms for Cell Sorting 653

Fateme Mirakhorli, Seyed Sepehr Mohseni, Sajad Razavi Bazaz, Ali Abouei Mehrizi, Peter J. Ralph, and Majid Ebrahimi Warkiani

19 Sustainable Separations Using Organic Solvent Nanofiltration 697

Nazlee Faisal Ghazali and Ki Min Lim

20 Sustainable Separations in the Chemical Engineering Curriculum 731

Thomas Rodgers

Index 741

Gyorgy Szekely is a chemical engineer with degrees from the Technical University of Budapest, and the Technical University of Dortmund. After working at Imperial College London, and the University of Manchester, he settled at the Advanced Membranes & Porous Materials Center at KAUST.

Dan Zhao is Associate Professor at the Department of Chemical & Biomolecular Engineering at the National University of Singapore. His research focuses on advanced porous materials and membranes with applications in clean energy and environmental sustainability.

Explore an insightful collection of resources exploring conventional and emerging materials and techniques for separations

In Sustainable Separation Engineering: Materials, Techniques and Process Development, a team of distinguished chemical engineers delivers a comprehensive discussion of the latest trends in sustainable separation engineering. Designed to facilitate understanding and knowledge transfer between materials scientists and chemical engineers, the book is beneficial for scientists, practitioners, technologists, and industrial managers.

Written from a sustainability perspective, the status and need for more emphasis on sustainable separations in the chemical engineering curriculum is highlighted. The accomplished editors have included contributions that explore a variety of conventional and emerging materials and techniques for efficient separations, as well as the prospects for the use of artificial intelligence in separation science and technology.

Case studies round out the included material, discussing a broad range of separation applications, like battery recycling, carbon sequestration, and biofuel production. This edited volume also provides:

• Thorough introductions to green materials for sustainable separations, as well as advanced materials for sustainable oil and water separation
• Comprehensive explorations of the recycling of lithium batteries and ionic liquids for sustainable separation processes
• Practical discussions of carbon sequestration, the recycling of polymer materials, and AI for the development of separation materials and processes
• In-depth examinations of membranes for sustainable separations, green extraction processes, and adsorption processes for sustainable separations

Perfect for academic and industrial researchers interested in the green and sustainable aspects of separation science, Sustainable Separation Engineering: Materials, Techniques and Process Development is an indispensable resource for chemical engineers, materials scientists, polymer scientists, and renewable energy professionals.