Kinetic data for continuous processes from liquid‐liquid loop reactor experiments

Rütti, David; Moser, Marlies; Georg, Alain G.; Spier, Eyal S.; Meier, Daniel Matthias

doi:10.1002/cite.202100005

Full metadata record

DC Field	Value	Language
dc.contributor.author	Rütti, David	-
dc.contributor.author	Moser, Marlies	-
dc.contributor.author	Georg, Alain G.	-
dc.contributor.author	Spier, Eyal S.	-
dc.contributor.author	Meier, Daniel Matthias	-
dc.date.accessioned	2021-05-20T14:11:22Z	-
dc.date.available	2021-05-20T14:11:22Z	-
dc.date.issued	2021-05-11	-
dc.identifier.issn	0009-286X	de_CH
dc.identifier.issn	1522-2640	de_CH
dc.identifier.uri	https://digitalcollection.zhaw.ch/handle/11475/22520	-
dc.description.abstract	Process engineering is based on models, which are preferably established at laboratory scale under near‐service conditions. Here, for the first time, a kinetic study of the basic hydrolysis of ethyl acetate was performed with a small volume liquid‐liquid loop reactor satisfying these criteria. The activation energy and pre‐exponential factor were determined that agreed with data from the literature. Acquired data could be successfully transferred to well‐established ideal reactor models such as continuous stirred tank or plug flow reactors. It was, thus, possible to show that a simply scalable loop reactor, requiring only small amounts of substrate and producing minimum waste, can serve as a tool for kinetic studies of continuous processes.	de_CH
dc.language.iso	en	de_CH
dc.publisher	Wiley	de_CH
dc.relation.ispartof	Chemie Ingenieur Technik	de_CH
dc.rights	Licence according to publishing contract	de_CH
dc.subject	Flow chemistry	de_CH
dc.subject	Green chemistry	de_CH
dc.subject	Process engineering	de_CH
dc.subject	Process intensification	de_CH
dc.subject	Near-service conditions	de_CH
dc.subject.ddc	660: Technische Chemie	de_CH
dc.title	Kinetic data for continuous processes from liquid‐liquid loop reactor experiments	de_CH
dc.type	Beitrag in wissenschaftlicher Zeitschrift	de_CH
dcterms.type	Text	de_CH
zhaw.departement	School of Engineering	de_CH
zhaw.organisationalunit	Institute of Materials and Process Engineering (IMPE)	de_CH
dc.identifier.doi	10.1002/cite.202100005	de_CH
zhaw.funding.eu	No	de_CH
zhaw.issue	8	de_CH
zhaw.originated.zhaw	Yes	de_CH
zhaw.pages.end	1272	de_CH
zhaw.pages.start	1267	de_CH
zhaw.publication.status	publishedVersion	de_CH
zhaw.volume	93	de_CH
zhaw.publication.review	Peer review (Publikation)	de_CH
zhaw.webfeed	Chemieingenieurwesen	de_CH
zhaw.webfeed	Verfahrenstechnik	de_CH
zhaw.funding.zhaw	Entwicklung eines experimentbasierten Designtools für kontinuierliche Reaktoren	de_CH
zhaw.author.additional	No	de_CH
zhaw.display.portrait	Yes	de_CH
Appears in collections:	Publikationen School of Engineering

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Rütti, D., Moser, M., Georg, A. G., Spier, E. S., & Meier, D. M. (2021). Kinetic data for continuous processes from liquid‐liquid loop reactor experiments. Chemie Ingenieur Technik, 93(8), 1267–1272. https://doi.org/10.1002/cite.202100005

Rütti, D. et al. (2021) ‘Kinetic data for continuous processes from liquid‐liquid loop reactor experiments’, Chemie Ingenieur Technik, 93(8), pp. 1267–1272. Available at: https://doi.org/10.1002/cite.202100005.

D. Rütti, M. Moser, A. G. Georg, E. S. Spier, and D. M. Meier, “Kinetic data for continuous processes from liquid‐liquid loop reactor experiments,” Chemie Ingenieur Technik, vol. 93, no. 8, pp. 1267–1272, May 2021, doi: 10.1002/cite.202100005.

RÜTTI, David, Marlies MOSER, Alain G. GEORG, Eyal S. SPIER und Daniel Matthias MEIER, 2021. Kinetic data for continuous processes from liquid‐liquid loop reactor experiments. Chemie Ingenieur Technik. 11 Mai 2021. Bd. 93, Nr. 8, S. 1267–1272. DOI 10.1002/cite.202100005

Rütti, David, Marlies Moser, Alain G. Georg, Eyal S. Spier, and Daniel Matthias Meier. 2021. “Kinetic Data for Continuous Processes from Liquid‐Liquid Loop Reactor Experiments.” Chemie Ingenieur Technik 93 (8): 1267–72. https://doi.org/10.1002/cite.202100005.

Rütti, David, et al. “Kinetic Data for Continuous Processes from Liquid‐Liquid Loop Reactor Experiments.” Chemie Ingenieur Technik, vol. 93, no. 8, May 2021, pp. 1267–72, https://doi.org/10.1002/cite.202100005.