A new equivalent method to obtain the stoichiometric fuel-air cloud from the inhomogeneous cloud based on FLACS-dispersion

“…VA was converted to a gas with compositions of CH 4 15.6%, C 3 H 8 31.2%, and CO 2 53.2% using equivalent gas model. 15 In addition, the heat of combustion of the equivalent was 22.97 MJ/kg, which is almost similar to 22.69 MJ/kg of VA . In order to test the grid independency, we created lattice intervals of 0.…”

“…However, this simulation was carried out by using the equivalent gas model to create a gas of the same nature as VA . VA was converted to a gas with compositions of CH 4 15.6%, C 3 H 8 31.2%, and CO 2 53.2% using equivalent gas model . In addition, the heat of combustion of the equivalent was 22.97 MJ/kg, which is almost similar to 22.69 MJ/kg of VA .…”

CFD/FEA connected modeling and analysis of vapor cloud explosion at a wastewater storage pond of a chemical plant in Korea

“…VA was converted to a gas with compositions of CH 4 15.6%, C 3 H 8 31.2%, and CO 2 53.2% using equivalent gas model. 15 In addition, the heat of combustion of the equivalent was 22.97 MJ/kg, which is almost similar to 22.69 MJ/kg of VA . In order to test the grid independency, we created lattice intervals of 0.…”

“…However, this simulation was carried out by using the equivalent gas model to create a gas of the same nature as VA . VA was converted to a gas with compositions of CH 4 15.6%, C 3 H 8 31.2%, and CO 2 53.2% using equivalent gas model . In addition, the heat of combustion of the equivalent was 22.97 MJ/kg, which is almost similar to 22.69 MJ/kg of VA .…”

CFD/FEA connected modeling and analysis of vapor cloud explosion at a wastewater storage pond of a chemical plant in Korea

Experimental study on the deflagration characteristics of methane-ethane mixtures in a closed duct

Simulation analysis of protective wall against hydrogen combustion from liquified hydrogen storage tank on the offshore launching platform