TWODEE-2: a shallow layer model for dense gas dispersion on complex topography
TWODEE-2: a shallow layer model for dense gas dispersion on complex topography
TWODEE-2 is a Fortran 90 code based on previous code (TWODEE). It is designed to solve the shallow water equations for fluid depth, depth-averaged horizontal velocities and depth-averaged fluid density. The shallow layer approach used by twodee-2 is a compromise between the complexity of CFD models and the simpler integral models. It can be used for forecasting gas dispersion near the ground and/or for hazard assessment over complex terrains. The inputs to the model are topography, terrain roughness, wind measurements from meteorological stations and gas flow rate from the ground sources. Optionally the model can be coupled with the output of a meteorological processor which generates a zero-divergence wind field incorporating terrain effects. Model outputs are gas concentration, depth-averaged velocity, averaged cloud thickness and dose. The model can be a useful tool for gas hazard assessment by evaluating where and when lethal concentrations for humans and animals can be reached.
Dense gas transport, Fortran code, Gas hazard, Computational model
667-674
Folch, A.
a02f91c7-bb8e-4fd1-9e67-edd269cb3800
Costa, A.
6b9c0431-a48e-41a2-b84a-7e432ce33ffc
Hankin, R.K.S.
296864a6-e423-44b6-ad0e-25422c913540
March 2009
Folch, A.
a02f91c7-bb8e-4fd1-9e67-edd269cb3800
Costa, A.
6b9c0431-a48e-41a2-b84a-7e432ce33ffc
Hankin, R.K.S.
296864a6-e423-44b6-ad0e-25422c913540
Folch, A., Costa, A. and Hankin, R.K.S.
(2009)
TWODEE-2: a shallow layer model for dense gas dispersion on complex topography.
Computers & Geosciences, 35 (3), .
(doi:10.1016/j.cageo.2007.12.017).
Abstract
TWODEE-2 is a Fortran 90 code based on previous code (TWODEE). It is designed to solve the shallow water equations for fluid depth, depth-averaged horizontal velocities and depth-averaged fluid density. The shallow layer approach used by twodee-2 is a compromise between the complexity of CFD models and the simpler integral models. It can be used for forecasting gas dispersion near the ground and/or for hazard assessment over complex terrains. The inputs to the model are topography, terrain roughness, wind measurements from meteorological stations and gas flow rate from the ground sources. Optionally the model can be coupled with the output of a meteorological processor which generates a zero-divergence wind field incorporating terrain effects. Model outputs are gas concentration, depth-averaged velocity, averaged cloud thickness and dose. The model can be a useful tool for gas hazard assessment by evaluating where and when lethal concentrations for humans and animals can be reached.
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Published date: March 2009
Keywords:
Dense gas transport, Fortran code, Gas hazard, Computational model
Identifiers
Local EPrints ID: 64012
URI: http://eprints.soton.ac.uk/id/eprint/64012
ISSN: 0098-3004
PURE UUID: 6b83eaf8-fad8-4092-b878-6b92d26f6fbf
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Date deposited: 24 Nov 2008
Last modified: 15 Mar 2024 11:45
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Contributors
Author:
A. Folch
Author:
A. Costa
Author:
R.K.S. Hankin
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