Numerical Simulation of Tanks Containing Pressurized Gas Exposed to Accidental Fires: Evaluation of the Transient Heat Up

Numerical Simulation of Tanks Containing Pressurized Gas Exposed to Accidental Fires: Evaluation of the Transient Heat Up

Fires may impact on process and storage equipment causing severe damages and potential accident escalation. In the present study, a Computational Fluid Dynamics (CFD) model was set up for pressurized vessels exposed to accidental fires, aimed at determining the transient behaviour of the stored flui...

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Main Authors: A. D'Aulisa, D. Simone, G. Landucci, A. Tugnoli, V. Cozzani, M. Birk
Format: Article
Language:English
Published: AIDIC Servizi S.r.l. 2014-04-01
Series:Chemical Engineering Transactions
Online Access:https://www.cetjournal.it/index.php/cet/article/view/5884
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spelling doaj-8f02a9811a12493e922590a9f92fb1082021-02-21T21:02:08ZengAIDIC Servizi S.r.l.Chemical Engineering Transactions2283-92162014-04-013610.3303/CET1436041Numerical Simulation of Tanks Containing Pressurized Gas Exposed to Accidental Fires: Evaluation of the Transient Heat UpA. D'AulisaD. SimoneG. LanducciA. TugnoliV. CozzaniM. BirkFires may impact on process and storage equipment causing severe damages and potential accident escalation. In the present study, a Computational Fluid Dynamics (CFD) model was set up for pressurized vessels exposed to accidental fires, aimed at determining the transient behaviour of the stored fluid during the heat-up. The model was developed for vessels containing pressurized flammable gases, such as methane, propane and hydrogen. The ANSYS FLUENT software was used in order to implement a two-dimensional circular geometry considering a medium scale spherical tanker. The presence of a heat resistant coating was considered in the analysis. The model allowed predicting the velocity and temperature profiles, thus obtaining the pressurization rate in the vessel and providing key indications for the evaluation of the vessel resistance.https://www.cetjournal.it/index.php/cet/article/view/5884
collection DOAJ
language English
format Article
sources DOAJ
author A. D'Aulisa
D. Simone
G. Landucci
A. Tugnoli
V. Cozzani
M. Birk
spellingShingle A. D'Aulisa
D. Simone
G. Landucci
A. Tugnoli
V. Cozzani
M. Birk
Numerical Simulation of Tanks Containing Pressurized Gas Exposed to Accidental Fires: Evaluation of the Transient Heat Up
Chemical Engineering Transactions
author_facet A. D'Aulisa
D. Simone
G. Landucci
A. Tugnoli
V. Cozzani
M. Birk
author_sort A. D'Aulisa
title Numerical Simulation of Tanks Containing Pressurized Gas Exposed to Accidental Fires: Evaluation of the Transient Heat Up
title_short Numerical Simulation of Tanks Containing Pressurized Gas Exposed to Accidental Fires: Evaluation of the Transient Heat Up
title_full Numerical Simulation of Tanks Containing Pressurized Gas Exposed to Accidental Fires: Evaluation of the Transient Heat Up
title_fullStr Numerical Simulation of Tanks Containing Pressurized Gas Exposed to Accidental Fires: Evaluation of the Transient Heat Up
title_full_unstemmed Numerical Simulation of Tanks Containing Pressurized Gas Exposed to Accidental Fires: Evaluation of the Transient Heat Up
title_sort numerical simulation of tanks containing pressurized gas exposed to accidental fires: evaluation of the transient heat up
publisher AIDIC Servizi S.r.l.
series Chemical Engineering Transactions
issn 2283-9216
publishDate 2014-04-01
description Fires may impact on process and storage equipment causing severe damages and potential accident escalation. In the present study, a Computational Fluid Dynamics (CFD) model was set up for pressurized vessels exposed to accidental fires, aimed at determining the transient behaviour of the stored fluid during the heat-up. The model was developed for vessels containing pressurized flammable gases, such as methane, propane and hydrogen. The ANSYS FLUENT software was used in order to implement a two-dimensional circular geometry considering a medium scale spherical tanker. The presence of a heat resistant coating was considered in the analysis. The model allowed predicting the velocity and temperature profiles, thus obtaining the pressurization rate in the vessel and providing key indications for the evaluation of the vessel resistance.
url https://www.cetjournal.it/index.php/cet/article/view/5884
work_keys_str_mv AT adaulisa numericalsimulationoftankscontainingpressurizedgasexposedtoaccidentalfiresevaluationofthetransientheatup
AT dsimone numericalsimulationoftankscontainingpressurizedgasexposedtoaccidentalfiresevaluationofthetransientheatup
AT glanducci numericalsimulationoftankscontainingpressurizedgasexposedtoaccidentalfiresevaluationofthetransientheatup
AT atugnoli numericalsimulationoftankscontainingpressurizedgasexposedtoaccidentalfiresevaluationofthetransientheatup
AT vcozzani numericalsimulationoftankscontainingpressurizedgasexposedtoaccidentalfiresevaluationofthetransientheatup
AT mbirk numericalsimulationoftankscontainingpressurizedgasexposedtoaccidentalfiresevaluationofthetransientheatup
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