Effect of initial temperature on the explosion pressure of various liquid fuels and their blends
Copyright policy )Effect of initial temperature on the explosion pressure of various liquid fuels and their blends
In this work, the effect of initial temperature on the explosion pressure, Pex, of various liquid fuels (isooctane, toluene and methanol) and their blends (isooctane-toluene and methanol-toluene, with three different fuel-fuel ratios) was investigated by performing experiments in a 20-l sphere at different concentrations of vaporized fuel in air. The initial temperature was varied from 333 K to 413 K. Results show that, as the fuel-air equivalence ratio, Φ, is increased, a transition occurs from a “thermodynamics-driven” explosion regime to a “radiant heat losses-driven” explosion regime. The maximum pressure, Pmax, is found in the former regime (Φ 3), Pex increases with increasing initial temperature. This trend has been addressed to the decrease in emissivity (and, thus, radiant heat losses) with the increase in temperature
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Liquid fuels; Initial temperature; 20-l Sphere; Explosion regimes; Thermodynamics; Radiant heat losses, paliwa ciekłe, temperatura początkowa, Liquid fuels; Initial temperature; 20-l Sphere; Explosion regimes; Thermodynamics; Radiant heat losses., granice wybuchowości, radiacyjne straty ciepła, termodynamika, kula 20 l
Liquid fuels; Initial temperature; 20-l Sphere; Explosion regimes; Thermodynamics; Radiant heat losses, paliwa ciekłe, temperatura początkowa, Liquid fuels; Initial temperature; 20-l Sphere; Explosion regimes; Thermodynamics; Radiant heat losses., granice wybuchowości, radiacyjne straty ciepła, termodynamika, kula 20 l
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