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Author: Fossum, Hannibal Eie; Osnes, Andreas Nygård; Kristensen, Tor Erik
Date Issued: 2019-01-14
Keywords: Eksplosiver; Termodynamikk; Fluiddynamikk
Permalink: http://hdl.handle.net/20.500.12242/2748
Collection: Articles
Description: Fossum, Hannibal Eie; Osnes, Andreas Nygård; Kristensen, Tor Erik. Evaluation of safety distances for storage of explosive materials using a combination of thermochemical computations and CFD. I: MekIT’19 - 10th National Conference on Computational Mechanics. International Center for Numerical Methods in Engineering (CIMNE) 2019 ISBN 978-84-949194-9-7. s. 115-137

1772193.pdf: Size: 3M

Abstract

A novel approach to calculating TNT equivalencies and safety distances for explosives, using a combination of thermochemical computations and computational fluid dynamics, is presented. This enables the estimation of safety distances for specific explosives and charge geometries based on physical principles rather than empirical parametrizations. The methodology inherently allows for the simulation of subsequent shock propagation and interaction with surrounding structures, following the detonation of an explosive. Presented results include examples of computed TNT equivalencies for selected commercial explosives, as well as simulated pressure distributions around a detonating stack of dynamite.

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dc.contributor.author	Fossum, Hannibal Eie ,Osnes, Andreas Nygård ,Kristensen, Tor Erik
dc.date.accessioned	2020-02-20T12:16:53Z ,2020-07-15T12:36:19Z
dc.date.available	2020-02-20T12:16:53Z ,2020-07-15T12:36:19Z
dc.date.issued	2019-01-14
dc.identifier.citation	Fossum HE, Osnes A, Kristensen TEK: Evaluation of safety distances for storage of explosive materials using a combination of thermochemical computations and CFD. In: Skallerud BH, Andersson HI. MekIT’19 - 10th National Conference on Computational Mechanics , 2019. International Center for Numerical Methods in Engineering (CIMNE)
dc.identifier.uri	http://hdl.handle.net/20.500.12242/2748
dc.description	Fossum, Hannibal Eie; Osnes, Andreas Nygård; Kristensen, Tor Erik. Evaluation of safety distances for storage of explosive materials using a combination of thermochemical computations and CFD. I: MekIT’19 - 10th National Conference on Computational Mechanics. International Center for Numerical Methods in Engineering (CIMNE) 2019 ISBN 978-84-949194-9-7. s. 115-137
dc.description.abstract	A novel approach to calculating TNT equivalencies and safety distances for explosives, using a combination of thermochemical computations and computational fluid dynamics, is presented. This enables the estimation of safety distances for specific explosives and charge geometries based on physical principles rather than empirical parametrizations. The methodology inherently allows for the simulation of subsequent shock propagation and interaction with surrounding structures, following the detonation of an explosive. Presented results include examples of computed TNT equivalencies for selected commercial explosives, as well as simulated pressure distributions around a detonating stack of dynamite.
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dc.language.iso	en
dc.subject	Eksplosiver ,Termodynamikk ,Fluiddynamikk
dc.title	Evaluation of safety distances for storage of explosive materials using a combination of thermochemical computations and CFD
dc.type	Book chapter
dc.date.updated	2020-02-20T12:16:53Z
dc.identifier.cristinID	1772193
dc.source.isbn	978-84-949194-9-7
dc.type.document	Chapter