Journal ArticleDOI
Experiments on the influence of pre-ignition turbulence on vented gas and dust explosions
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In this article, the influence of pre-ignition turbulence on the course of vented gas and dust explosions was investigated in a vertical cylindrical explosion chamber with a length-to-diameter ratio (l/d) of 4.7.Abstract:
Experiments were performed on the influence of pre-ignition turbulence on the course of vented gas and dust explosions. A vertical cylindrical explosion chamber of approximately 100 l volume and a length-to-diameter ratio (l/d) of 4.7 consisting of a steel bottom segment and three glass sections connected by steel flanges was used to perform the experiments. Sixteen small fans evenly distributed within the chamber produced turbulent fluctuations from 0 to 0.45 m/s. A Laser-Doppler-anemometer (LDA) was used to measure the flow and turbulence fields. During the experiments the pressure and in the case of dust explosions the dust concentration were measured. In addition, the flame propagation was observed by a high-speed video camera. A propane/nitrogen/oxygen mixture was used for the gas explosion experiments, while the dust explosions were produced by a cornstarch/air mixture. It turned out that the reduced explosion pressure increased with increasing turbulence intensity. This effect was most pronounced for small vents with low activation pressures, e.g. for bursting disks made from polyethylene foil. In this case, the overpressure at an initial turbulence of 0.45 m/s was twice that for zero initial turbulence.read more
Citations
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Dust explosions–Cases, causes, consequences, and control
TL;DR: In this article, the authors present the state-of-the-art of dust explosion state of the art, and present the ways available to prevent dust explosion, and on cushioning the impact of a dust explosion by venting when the accident does take place.
Journal ArticleDOI
Effect of scale on the explosion of methane in air and its shockwave
Qi Zhang,L. Pang,H.M. Liang +2 more
TL;DR: In this article, the authors used AutoReaGas, a finite element computational fluid dynamics (CFD) code suitable for gas explosions and blast problems, to carry out the numerical simulation for the explosion processes of a methane-air mixture in the gallery or duct at various scales.
Journal ArticleDOI
Correlations for flame speed and explosion overpressure of dust clouds inside industrial enclosures
TL;DR: In this article, the authors present empirical correlations between the flame speed and the burning velocity starting from the explosion indices K St and P max of the standardized 20-l sphere test and either the calculation of the explosion overpressure or the sizing of relief vents of an enclosure.
Journal ArticleDOI
Experiment-based investigations on the effect of ignition energy on dust explosion behaviors
TL;DR: In this article, an innovative approach was introduced to derive flame thickness from the pressure-time trace, and the relation between explosion induction time and combustion duration of ignitor was also analyzed.
Journal ArticleDOI
Explosion and flame characteristics of methane/air mixtures in a large-scale vessel
TL;DR: In this paper, a 10m3 vessel with a high-speed camera and pressure gauges was used to record the pressure trajectories and flame propagation process of ignition growth, and the experimental results showed that the maximum value of overpressure and the maximum rate of the explosion pressure rise are 0.596 MPa and 1.82 MPa/s for the methane (9.5% in volume)/air mixture at atmospheric conditions, respectively.
References
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Journal ArticleDOI
Turbulence and turbulent flame propagation—A critical appraisal
TL;DR: In this article, the compatibility of theories of turbulence with different turbulent flame models is discussed, and it is suggested that the turbulent Reynolds number, Rλ, of the reactants is an important controlling parameter in turbulent flame propagation.
Journal ArticleDOI
The venting of gaseous explosions in spherical vessels. I—Theory
Derek Bradley,Alan Mitcheson +1 more
TL;DR: In this paper, a study of the required vent areas for pressure relief during explosions with normal flame propagation is presented, in a recommended form of values of maximum pressure rise plotted against AS0, where A is the product of vent area and coefficient of discharge divided by the total sphere area.
Journal ArticleDOI
Effects of turbulence on dust explosions
TL;DR: In this article, the effects of turbulence on the following dust explosion parameters: flame propagation rate, maximum explosion pressure, maximum rate of pressure rise, flammability or explosibility limits and minimum ignition energy.
Journal ArticleDOI
Modeling of vented deflagrations
TL;DR: In this article, a mathematical model of vented gas-phase deflagrations is presented, where account is taken of initial turbulence in the gases, flame acceleration due to hydrodynamic instabilities prior to vent opening, and increased burning velocity due to turbulence generated by the venting process.
Journal ArticleDOI
Scaling parameters for vented gas and dust explosions
TL;DR: In this paper, the authors provide a discussion of scaling issues with the help of predictions from an isothermal model of vented explosions and provide a tool for the planning of such experiments and for the interpretation of their results.
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