2000
DOI: 10.1007/s001930050007
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Detonation and deflagration initiation at the focusing of shock waves in combustible gaseous mixture

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Cited by 75 publications
(25 citation statements)
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“…The shock structures produced by the rupture are affected by both the initial geometry of the burst disk at failure (multidimensional) and the (stochastic) fracture geometry, producing shocksidewall and shock-shock interactions (Jiang et al, 1997). It is possible through such shock interactions and ''shock focusing'' (Fay and Lekawa, 1956;Gelfand et al, 2000;Bartenev et al, 2001) exist and produce higher local temperatures and pressures (and hence shorter ignition delays) than those estimated on the basis of simple 1-D theory. Moreover shock interactions with the side walls of the cavity will result in heating the air in the developing boundary layers near the walls and in increasing contact surfaces between the expanding hydrogen core and shock-heated air.…”
mentioning
confidence: 99%
“…The shock structures produced by the rupture are affected by both the initial geometry of the burst disk at failure (multidimensional) and the (stochastic) fracture geometry, producing shocksidewall and shock-shock interactions (Jiang et al, 1997). It is possible through such shock interactions and ''shock focusing'' (Fay and Lekawa, 1956;Gelfand et al, 2000;Bartenev et al, 2001) exist and produce higher local temperatures and pressures (and hence shorter ignition delays) than those estimated on the basis of simple 1-D theory. Moreover shock interactions with the side walls of the cavity will result in heating the air in the developing boundary layers near the walls and in increasing contact surfaces between the expanding hydrogen core and shock-heated air.…”
mentioning
confidence: 99%
“…The reflection of shock waves from shock tube end walls is a well-established method of initiation [3,4] and is the primary technique used to measure ignition delay times. Several studies have also shown that reflection of a planar incident shock wave from a concave end wall will focus the reflected wave [5][6][7][8], and that the temperatures and pressures at the gas-dynamic focus can be sufficient for initiation of the postshock mixture [9][10][11][12][13][14]. Toroidally imploding shock waves have also been directly initiated from ring sources [15].…”
Section: Previous Research On Imploding Wavesmentioning
confidence: 99%
“…The shock focusing in the symmetric inner double wedge was first discussed by Milton [13] in 1989 and was used to ignited the quiescent, combustible mixtured gas by Gelfand [7] in 2000.…”
Section: Shock Focusing and Ignition By Shock Focusing In Symmetric mentioning
confidence: 99%
“…The shock focusing, acting as an ignition method to ignite the combustible gas premixed, has attracted much attention of researchers in recent years, such as the work done by Borisov et al [4][5][6][7][8][9]. Compared to other ignition method, the ignition by the shock focusing has particular advantage, which is potential in some special situation.…”
Section: Introductionmentioning
confidence: 99%