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Green Chemistry Series
Flow Chemistry: Integrated Approaches for Practical Applications
Edited by
Santiago V Luis;
Santiago V Luis
University Jaume I, Spain
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Eduardo Garcia-Verdugo
Eduardo Garcia-Verdugo
University Jaume I, Spain
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Hardback ISBN:
978-1-78801-498-4
PDF ISBN:
978-1-78801-609-4
EPUB ISBN:
978-1-78801-893-7
Series:
Green Chemistry
No. of Pages:
542
Publication date:
18 Sep 2019
Book Chapter
Chapter 13: Additively Manufactured Advanced Flow Reactors for Enhanced Heat and Mass Transfer
By
Obinna Okafor
;
Obinna Okafor
Faculty of Engineering, University of Nottingham
Nottingham
NG7 2RD
UK
victor.sanssangorrin@nottingham.ac.uk
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Ruth Goodridge
;
Ruth Goodridge
Faculty of Engineering, University of Nottingham
Nottingham
NG7 2RD
UK
victor.sanssangorrin@nottingham.ac.uk
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Victor Sans
Victor Sans
Faculty of Engineering, University of Nottingham
Nottingham
NG7 2RD
UK
victor.sanssangorrin@nottingham.ac.ukInstitute of Advanced Materials (INAM), Universitat Jaume I
12006
Spain
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Published:18 Sep 2019
-
Series: Green Chemistry
Citation
Obinna Okafor, Ruth Goodridge, Victor Sans, 2019. "Additively Manufactured Advanced Flow Reactors for Enhanced Heat and Mass Transfer", Flow Chemistry: Integrated Approaches for Practical Applications, Santiago V Luis, Eduardo Garcia-Verdugo
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The employment of additive manufacturing is emerging as a powerful tool to generate continuous-flow reactors for applications in catalysis, synthesis, biology and analytics. This has led to a plethora of reports about multiple applications, and techniques to generate the devices and materials. Here, we review the latest applications described for advanced reactors, where heat and mass transfer considerations have been considered through advanced mixing features.
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