Add to ORKGAn extended validation of the new Lagrangian particle model MicroSpray version for dense gas simulation is proposed. MicroSpray simulates the dense gas dispersion in situations characterized by the presence of buildings, other obstacles, complex terrain, and possible occurrence of low wind speed conditions. Its performances are compared to a chlorine railway accident (Macdona), to a field experiment (Kit Fox) and to an atmospheric CFD model
Turbulence modeling and validation by experiments are key issues in the simulation of micro-scale at...
Many volcanic and non-volcanic areas in Italy emit a huge amount of gas into the atmosphere. Non-vol...
Computational fluid dynamics (CFD) approach is applied to investigate heavy gas dispersion in the at...
An extended validation of the new Lagrangian particle model MicroSpray version for dense gas simulat...
A modelling system for the simulation of the flow and dispersion from the mesoscale down to the urba...
This Ph.D. thesis is devoted to the analysis and development of numerical models to predict the disp...
Atmospheric dispersal of a gas denser than air can threat the environment and surrounding communitie...
Abstract: Potentially dangerous events involving heavy gas dispersion and their severe consequences ...
The spread of a dense gas in the atmosphere is a phenomenon that occurs widely with natural (and ant...
This project has made new findings regarding the role of computational fluid dynamics (CFD) in under...
Computational Fluid Dynamics (CFD) codes are widely used for gas dispersion studies on offshore inst...
Turbulence modeling and validation by experiments are key issues in the simulation of micro-scale at...
PresentationComputational Fluid Dynamics (CFD) codes are widely used for gas dispersion studies on o...
A model to describe the cloud dispersion of gas denser than air is presented here. The dispersion of...
The main aim of this study is the establishment of a new methodology for the assessment of terrain a...
Turbulence modeling and validation by experiments are key issues in the simulation of micro-scale at...
Many volcanic and non-volcanic areas in Italy emit a huge amount of gas into the atmosphere. Non-vol...
Computational fluid dynamics (CFD) approach is applied to investigate heavy gas dispersion in the at...
An extended validation of the new Lagrangian particle model MicroSpray version for dense gas simulat...
A modelling system for the simulation of the flow and dispersion from the mesoscale down to the urba...
This Ph.D. thesis is devoted to the analysis and development of numerical models to predict the disp...
Atmospheric dispersal of a gas denser than air can threat the environment and surrounding communitie...
Abstract: Potentially dangerous events involving heavy gas dispersion and their severe consequences ...
The spread of a dense gas in the atmosphere is a phenomenon that occurs widely with natural (and ant...
This project has made new findings regarding the role of computational fluid dynamics (CFD) in under...
Computational Fluid Dynamics (CFD) codes are widely used for gas dispersion studies on offshore inst...
Turbulence modeling and validation by experiments are key issues in the simulation of micro-scale at...
PresentationComputational Fluid Dynamics (CFD) codes are widely used for gas dispersion studies on o...
A model to describe the cloud dispersion of gas denser than air is presented here. The dispersion of...
The main aim of this study is the establishment of a new methodology for the assessment of terrain a...
Turbulence modeling and validation by experiments are key issues in the simulation of micro-scale at...
Many volcanic and non-volcanic areas in Italy emit a huge amount of gas into the atmosphere. Non-vol...
Computational fluid dynamics (CFD) approach is applied to investigate heavy gas dispersion in the at...