Journal ArticleDOI
Influence of ignition position and obstacles on explosion development in methane–air mixture in closed vessels
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In this paper, an experimental study of influence of the ignition position and obstacles on explosion development in premixed methane-air mixtures in an elongated explosion vessel was presented. But the authors did not consider the impact of obstacles on the course of pressure.Abstract:
The paper outlines an experimental study of influence of the ignition position and obstacles on explosion development in premixed methane–air mixtures in an elongated explosion vessel. As the explosion vessel, 1325 mm length tube with 128.5 mm diameter was used. Location of the ignition was changeable, i.e., fitted in the centre or at one of ends of the tube, when the tube was in a horizontal position. When it was in a vertical position, three locations of the ignition (bottom, centre and top) were used. In the performed study, the influence of obstacles on the course of pressure was investigated. Two identical steel grids were used as the obstacles. They were placed 405 mm from either end of the tube. Their blockage ratio (grid area to tube cross-section area) was determined as 0.33 for most of experiments. A few additional experiments (with smaller blockage ratio—0.16) were also conducted in order to compare the influence of the blockage ratio on the explosion development. Also some experiments were conducted in a semi-cylindrical vessel with volume close to 40 l. All the experiments were performed under stabilized conditions, with the temperature and pressure inside the vessel settled to room values and controlled by means of electronic devices. The pressure–time profiles from two transducers placed in the centreline of the inner wall of the explosion vessel were obtained for stoichiometric (9.5%), lean (7%) and rich (12%) methane–air mixture. The results obtained in the study, including maximum pressures and pressure–time profiles, illustrate a quite distinct influence of the above listed factors upon the explosion characteristics. The effect of ignition position, obstacles location and their BR parameters is discussed. The additional aim of the performed experiments was to find the data necessary to validate a new computer code, developed to calculate an explosion hazard in industrial installations.read more
Citations
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Journal ArticleDOI
A review on understanding explosions from methane-air mixture
TL;DR: A review of existing knowledge on the genesis and flame acceleration of explosions from methane-air mixtures is presented in this paper, which leads the readers to understand the considerations which must be accounted for in order to obviate and/or mitigate any accidental explosion originating from methane air systems.
Journal ArticleDOI
Explosion of gaseous ethylene–air mixtures in closed cylindrical vessels with central ignition
TL;DR: The heat losses appearing in the last stage of explosions occurring in asymmetrical vessels were estimated from the differences between the experimental and adiabatic maximum explosion pressures, and were found to depend linearly on the initial pressure.
Journal ArticleDOI
Propagation indices of methane-air explosions in closed vessels
TL;DR: In this article, the experimental explosion pressure and the rates of pressure rise are examined in comparison with literature data, the fluctuations being attributed to differences of heat lost by the flammable gas to the explosion vessel, during flame propagation.
Journal ArticleDOI
Ignition experiment with automotive spark on rotating detonation engine
TL;DR: In this article, an experimental study on rotating detonation engine with the slot-orifice impinging injection method was presented, where the engine was initiated successfully and the rotating wave propagated continuously and steadily in the circumferential direction.
Journal ArticleDOI
The acceleration of flames in tube explosions with two obstacles as a function of the obstacle separation distance
TL;DR: In this paper, a vented cylindrical vessel 162mm in diameter 4.5m long was used to study the effect of separation distance of two low blockage (30%) obstacles.
References
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Journal ArticleDOI
The effects of obstructions on overpressure resulting from premixed flame deflagration
Salah Ibrahim,Assaad R. Masri +1 more
TL;DR: In this article, the effects of obstruction geometry, blockage ratio and venting pressure on overpressures resulting from premixed flame deflagration were investigated, and it was found that the deflagation overpressure increases with increasing ventingpressure.
Journal ArticleDOI
Pressure development due to turbulent flame propagation in large-scale methaneair explosions
TL;DR: The results of large-scale methane-air explosion tests performed at Raufoss, Norway (July-September 1980) are described and discussed in this paper, where it is observed that even relatively small repeated obstacles of height 0.1 m (blockage ratio 0.16) have a dramatic influence on the violence of the explosion, generating explosion overpressures larger than 1 bar in the tube.
Journal ArticleDOI
Studies of premixed flame propagation in explosion tubes
TL;DR: In this article, an experimental and theoretical study of premixed flame propagation in a number of small-scale, cylindrical vessels is described, which provides further understanding of flame propagation and the generation of overpressure in explosions, and allows the assessment of a mathematical model of explosions through comparisons with the experimental data obtained.
Journal ArticleDOI
An experimental investigation of flame behavior during explosions in cylindrical enclosures with obstacles
R. Starke,P. Roth +1 more
TL;DR: In this paper, the influence of a wire grid, a circular plate, and an orifice on the shape of a flame's shape was investigated in cylindrical enclosures with obstacles and the reduction of total combustion time was measured by pressure recordings.