208600 Experimental Study of CH4/O2/CO2 Mixtures Explosivity
208600 Experimental Study of CH4/O2/CO2 Mixtures Explosivity
Tuesday, March 15, 2011
Grand Ballroom C/D (Hyatt Regency Chicago)
The oxy-combustion process uses CH4/O2/CO2/H2O mixtures at various concentrations, following the different operation phases. To analyze the risks associated to this process, the safety characteristics of these explosive mixtures have to be taken in account. A literature review showed that some safety features of methane in oxygen or in air were not available. Thus, the explosivity ternary diagram of CH4/O2/CO2 mixtures was determined at room temperature and 1 bar pressure. Furthermore, the influence of oxygen content on the explosion severity (Pmax; dP/dt) was investigated. The ternary mixtures were composed directly in a 20 L spherical test vessel. The concentrations of reactants were adjusted using the relationship between the partial pressure and the molar fraction of gas. The ignition source used was an alumel fusing wire. The explosion limits of methane in oxygen were extrapolated at 5 and 68% vol. respectively, by using the established CH4/O2/CO2 mixtures ternary diagram. It also confirmed that when the carbon dioxide concentration increases, the explosion domain decreases: no ignition was observed when carbon dioxide content exceeded 73%. A significant influence of the oxygen concentration on the explosion severity has been highlighted for CH4/O2/CO2 mixtures containing respectively 10, 25, 45 and 65% vol. of carbon dioxide. The maximal explosion overpressure and the pressure rise were both measured near the stœchiometry. Maximum values of Pmax and dP/dt measured for a 10% vol. carbon dioxide concentration were 11.2 bar rel. and 5904 bar/s respectively, since there were determined at resp. 3.6 bar rel. and 72 bar/s respectively in the case of a 65% vol. carbon dioxide content in the mixture.
See more of this Session: GCPS Poster Session
See more of this Group/Topical: Topical 1: Global Congress on Process Safety
See more of this Group/Topical: Topical 1: Global Congress on Process Safety