Safety assessment in development and operation of modular continuous-flow processes

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Abstract

Improved safety is one of the main drivers for microreactor application in chemical process development and small-scale production.

Abstract

Improved safety is one of the main drivers for microreactor application in chemical process development and small-scale production. Typical examples of hazardous chemistry are presented indicating potential risks also in miniaturized equipment. Energy balance and kinetic parameters describe the heat production potential and, together with heat transfer capability, the temperature development in a continuous flow reactor. Besides these calculation procedures, checklists for laboratory safety and risk assessment are the basis for improved laboratory work as well as for equipment-related safety discussions. For complete and larger chemical plants, hazard and operation (HAZOP) studies are the appropriate method of handling hazardous processes and their scale-up.

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Applications of Continuous-Flow Photochemistry in Organic Synthesis, Material Science, and Water Treatment.

Dario Cambié, Cecilia Bottecchia, Natan J W Straathof … (2016)

Continuous-flow photochemistry in microreactors receives a lot of attention from researchers in academia and industry as this technology provides reduced reaction times, higher selectivities, straightforward scalability, and the possibility to safely use hazardous intermediates and gaseous reactants. In this review, an up-to-date overview is given of photochemical transformations in continuous-flow reactors, including applications in organic synthesis, material science, and water treatment. In addition, the advantages of continuous-flow photochemistry are pointed out and a thorough comparison with batch processing is presented.

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Taming hazardous chemistry by continuous flow technology.

M Movsisyan, E I P Delbeke, J K E T Berton … (2016)

Over the last two decades, flow technologies have become increasingly popular in the field of organic chemistry, offering solutions for engineering and/or chemical problems. Flow reactors enhance the mass and heat transfer, resulting in rapid reaction mixing, and enable a precise control over the reaction parameters, increasing the overall process selectivity, efficiency and safety. These features allow chemists to tackle unexploited challenges in their work, with the ultimate objective making chemistry more accessible for laboratory and industrial applications, avoiding the need to store and handle toxic, reactive and explosive reagents. This review covers some of the latest and most relevant developments in the field of continuous flow chemistry with the focus on hazardous reactions.

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Novel process windows for enabling, accelerating, and uplifting flow chemistry.

Jason Noel, Qi Wang, D Kralisch … (2013)

Novel Process Windows make use of process conditions that are far from conventional practices. This involves the use of high temperatures, high pressures, high concentrations (solvent-free), new chemical transformations, explosive conditions, and process simplification and integration to boost synthetic chemistry on both the laboratory and production scale. Such harsh reaction conditions can be safely reached in microstructured reactors due to their excellent transport intensification properties. This Review discusses the different routes towards Novel Process Windows and provides several examples for each route grouped into different classes of chemical and process-design intensification. Copyright © 2013 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.

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Journal

Journal ID (publisher-id): RCEEBW

Title: Reaction Chemistry & Engineering

Abbreviated Title: React. Chem. Eng.

Publisher: Royal Society of Chemistry (RSC)

ISSN (Electronic): 2058-9883

Publication date Created: 2017

Publication date (Print): 2017

Volume: 2

Issue: 3

Pages: 258-280

Article

DOI: 10.1039/C7RE00021A

PubMed ID: 27453961

SO-VID: ce1deb4a-653c-4fea-bee0-46a57d19275f

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Safety assessment in development and operation of modular continuous-flow processes

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Most cited references 115

Applications of Continuous-Flow Photochemistry in Organic Synthesis, Material Science, and Water Treatment.

Taming hazardous chemistry by continuous flow technology.

Novel process windows for enabling, accelerating, and uplifting flow chemistry.

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Cited by 32