Mitigation of dense gas releases within buildings: validation of CFD modelling

When an accidental release of a hazardous material is considered within a safety case or risk assessment, its off-site effects are generally assessed by calculating the dispersion of vapour from the site. Although most installations handling flammable materials will be in the open air, many types of...

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Bibliographic Details
Published in:Journal of hazardous materials 2000-01, Vol.71 (1), p.193-218
Main Authors: Gilham, S., Deaves, D.M., Woodburn, P.
Format: Article
Language:English
Subjects:
Accidents, Occupational
Air Pollution, Indoor - prevention & control
Building mitigation
CFD
computational fluid dynamics
Fires
Gas build-up
Gases - pharmacokinetics
Humans
Models, Theoretical
Risk Assessment
Safety Management - methods
Thermodynamics
Validation
Volatilization
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Summary:When an accidental release of a hazardous material is considered within a safety case or risk assessment, its off-site effects are generally assessed by calculating the dispersion of vapour from the site. Although most installations handling flammable materials will be in the open air, many types of plant, particularly those handling toxics, are enclosed, partly to provide some form of containment and hence, to mitigate the effects of any release. When such a release occurs within a building, the gas or vapour will undergo some mixing before emerging from any opening. The degree of mixing will depend upon the building geometry and the nature of the ventilation, which in turn may be modified by the leak. This situation is considered in this paper, with specific application to calculating the rate of release of a dense vapour from a building. The paper describes the application of computational fluid dynamics (CFD) techniques to modelling the release and mixing processes within buildings. Examples of validation calculations for simple geometric arrangements, as well as more complex geometries representative of an industrial site, are described. The results demonstrate the capabilities of CFD for this application but highlight the need for careful modelling of the near-wall flows and heat transfer, and need for an accurate fluid dynamics and thermodynamic representation of the release source.
ISSN:0304-3894
1873-3336
DOI:10.1016/S0304-3894(99)00079-5