A shallow-layer model for heavy gas dispersion from natural sources: Application and hazard assessment at Caldara di Manziana, Italy
A shallow-layer model for heavy gas dispersion from natural sources: Application and hazard assessment at Caldara di Manziana, Italy
Several nonvolcanic sources in central Italy emit a large amount of carbon dioxide (CO2). Under stable atmospheric conditions and/or in the presence of topographic depressions, the concentration of CO2, which has a molecular mass greater than that of air, can reach high values that are lethal to humans or animals. Several episodes of this phenomenon were recorded in central Italy and elsewhere. In order to validate a model for the dispersion of a heavy gas and to assess the consequent hazard, we applied and tested the code TWODEE-2, an improved version of the established TWODEE model, which is based on a shallow-layer approach that uses depth-averaged variables to describe the flow behavior of dense gas over complex topography. We present results for a vented CO2 release at Caldara di Manziana in central Italy. We find that the model gives reliable results when the input quantity can be properly defined. Moreover, we show that the model can be a useful tool for gas hazard assessment by evaluating where and when lethal concentrations for humans and animals are reached.
Q03002
Costa, A.
6b9c0431-a48e-41a2-b84a-7e432ce33ffc
Chiodini, G.
8c64b930-1f87-4202-a58a-b280899893da
Granieri, D.
1ad92633-7bd4-45c2-97ba-d9baa5d9929f
Folch, A.
a02f91c7-bb8e-4fd1-9e67-edd269cb3800
Hankin, R.K.S.
296864a6-e423-44b6-ad0e-25422c913540
Caliro, S.
33b75851-b0e8-4068-a169-a4a9ff91d8cc
Avino, R.
3103df32-25ba-428b-810c-91d7e5d7d956
Cardellini, C.
70db11ff-8f87-4c13-a70e-50a9b1864cbf
August 2008
Costa, A.
6b9c0431-a48e-41a2-b84a-7e432ce33ffc
Chiodini, G.
8c64b930-1f87-4202-a58a-b280899893da
Granieri, D.
1ad92633-7bd4-45c2-97ba-d9baa5d9929f
Folch, A.
a02f91c7-bb8e-4fd1-9e67-edd269cb3800
Hankin, R.K.S.
296864a6-e423-44b6-ad0e-25422c913540
Caliro, S.
33b75851-b0e8-4068-a169-a4a9ff91d8cc
Avino, R.
3103df32-25ba-428b-810c-91d7e5d7d956
Cardellini, C.
70db11ff-8f87-4c13-a70e-50a9b1864cbf
Costa, A., Chiodini, G., Granieri, D., Folch, A., Hankin, R.K.S., Caliro, S., Avino, R. and Cardellini, C.
(2008)
A shallow-layer model for heavy gas dispersion from natural sources: Application and hazard assessment at Caldara di Manziana, Italy.
Geochemistry, Geophysics, Geosystems, 9, .
(doi:10.1029/2007GC001762).
Abstract
Several nonvolcanic sources in central Italy emit a large amount of carbon dioxide (CO2). Under stable atmospheric conditions and/or in the presence of topographic depressions, the concentration of CO2, which has a molecular mass greater than that of air, can reach high values that are lethal to humans or animals. Several episodes of this phenomenon were recorded in central Italy and elsewhere. In order to validate a model for the dispersion of a heavy gas and to assess the consequent hazard, we applied and tested the code TWODEE-2, an improved version of the established TWODEE model, which is based on a shallow-layer approach that uses depth-averaged variables to describe the flow behavior of dense gas over complex topography. We present results for a vented CO2 release at Caldara di Manziana in central Italy. We find that the model gives reliable results when the input quantity can be properly defined. Moreover, we show that the model can be a useful tool for gas hazard assessment by evaluating where and when lethal concentrations for humans and animals are reached.
This record has no associated files available for download.
More information
Published date: August 2008
Identifiers
Local EPrints ID: 64074
URI: http://eprints.soton.ac.uk/id/eprint/64074
ISSN: 1525-2027
PURE UUID: 9c49430f-f2b4-4225-8e5c-966567f219c6
Catalogue record
Date deposited: 27 Nov 2008
Last modified: 15 Mar 2024 11:45
Export record
Altmetrics
Contributors
Author:
A. Costa
Author:
G. Chiodini
Author:
D. Granieri
Author:
A. Folch
Author:
R.K.S. Hankin
Author:
S. Caliro
Author:
R. Avino
Author:
C. Cardellini
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics