The effect of turbulence on unsteady premixed flame propagation and associated pressure rise during explosion of stoichiometric CH4/air in closed spherical vessels of different size was investigated by means of CFD simulation. Computations were run by varying the vessel volume from 20 l to 200 l and to 1 m3. Numerical results have shown that, at fixed initial conditions, the turbulence kinetic energy induced by the propagating flame increases with increasing vessel volume. It has been demonstrated that the cubic relationship does not apply. Under the conditions investigated, a correction to the cubic relationship has been proposed to take into account the effect of the vessel volume on turbulence.
The role of turbulence in the validity of the cubic relationship / DI BENEDETTO, Almerinda; Di Sarli, Valeria. - In: JOURNAL OF LOSS PREVENTION IN THE PROCESS INDUSTRIES. - ISSN 0950-4230. - 43:(2016), pp. 593-599. [10.1016/j.jlp.2016.07.032]
The role of turbulence in the validity of the cubic relationship
DI BENEDETTO, ALMERINDA;
2016
Abstract
The effect of turbulence on unsteady premixed flame propagation and associated pressure rise during explosion of stoichiometric CH4/air in closed spherical vessels of different size was investigated by means of CFD simulation. Computations were run by varying the vessel volume from 20 l to 200 l and to 1 m3. Numerical results have shown that, at fixed initial conditions, the turbulence kinetic energy induced by the propagating flame increases with increasing vessel volume. It has been demonstrated that the cubic relationship does not apply. Under the conditions investigated, a correction to the cubic relationship has been proposed to take into account the effect of the vessel volume on turbulence.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
