Flame extinction in interacting CO-air and syngas-air premixed flames
Chemical interaction on flame extinction in downstream interaction of syngas-air and CO-air premixed flames was investigated. Flame stability diagrams mapping the extinction limits for various fuel concentrations as functions of the strain rate were developed for the downstream interactions between...
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| Published in | Journal of mechanical science and technology Vol. 29; no. 1; pp. 419 - 428 |
|---|---|
| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Heidelberg
Korean Society of Mechanical Engineers
01.01.2015
Springer Nature B.V 대한기계학회 |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1738-494X 1976-3824 |
| DOI | 10.1007/s12206-014-1248-2 |
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| Abstract | Chemical interaction on flame extinction in downstream interaction of syngas-air and CO-air premixed flames was investigated. Flame stability diagrams mapping the extinction limits for various fuel concentrations as functions of the strain rate were developed for the downstream interactions between syngas-air and CO-air premixed flames. Of particular concern was the impact of the chemical interaction on the flame extinction characteristics. The results showed that the lean extinction boundary was precipitously slanted for extremely small amount of syngas, finally causing the extinction boundary to open up in further increase of strain rate. There existed a critical syngas concentration below which the flame could not be sustained and above which the extinction boundary was double-valued. On the upper branch, hydrogen was produced via the reaction steps CO + H + M → HCO + M and HCO + H → H
2
+ CO near the highly rich CO-air premixed flame to participate in CO-oxidation. For highly stretched interacting flames, only a flammable island existed. The pure syngas-air diffusion flame was extinguished at a critical strain rate. Further increase of strain rate forced the flammable island to be shrunk and finally to be a point. For highly stretched interacting flames, a minimum CO concentration existed below which the flame could not be survived. In such flames, the diffusion flame can act as a parasite to the lean CO-air premixed flame through sharing hydrogen penetrated from the rich syngas-air premixed flame. Such chemical interactions were examined in detail to describe the flame extinction characteristics. |
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| AbstractList | Chemical interaction on flame extinction in downstream interaction of syngas-air and CO-air premixed flames was investigated. Flame stability diagrams mapping the extinction limits for various fuel concentrations as functions of the strain rate were developed for the downstream interactions between syngas-air and CO-air premixed flames. Of particular concern was the impact of the chemical interaction on the flame extinction characteristics. The results showed that the lean extinction boundary was precipitously slanted for extremely small amount of syngas, finally causing the extinction boundary to open up in further increase of strain rate. There existed a critical syngas concentration below which the flame could not be sustained and above which the extinction boundary was double-valued. On the upper branch, hydrogen was produced via the reaction steps CO + H + M → HCO + M and HCO + H → H
2
+ CO near the highly rich CO-air premixed flame to participate in CO-oxidation. For highly stretched interacting flames, only a flammable island existed. The pure syngas-air diffusion flame was extinguished at a critical strain rate. Further increase of strain rate forced the flammable island to be shrunk and finally to be a point. For highly stretched interacting flames, a minimum CO concentration existed below which the flame could not be survived. In such flames, the diffusion flame can act as a parasite to the lean CO-air premixed flame through sharing hydrogen penetrated from the rich syngas-air premixed flame. Such chemical interactions were examined in detail to describe the flame extinction characteristics. Chemical interaction on flame extinction in downstream interaction of syngas-air and CO-air premixed flames was investigated. Flamestability diagrams mapping the extinction limits for various fuel concentrations as functions of the strain rate were developed for thedownstream interactions between syngas-air and CO-air premixed flames. Of particular concern was the impact of the chemical interactionon the flame extinction characteristics. The results showed that the lean extinction boundary was precipitously slanted for extremelysmall amount of syngas, finally causing the extinction boundary to open up in further increase of strain rate. There existed a critical syngasconcentration below which the flame could not be sustained and above which the extinction boundary was double-valued. On theupper branch, hydrogen was produced via the reaction steps CO + H + M → HCO + M and HCO + H → H2 + CO near the highly richCO-air premixed flame to participate in CO-oxidation. For highly stretched interacting flames, only a flammable island existed. The puresyngas-air diffusion flame was extinguished at a critical strain rate. Further increase of strain rate forced the flammable island to beshrunk and finally to be a point. For highly stretched interacting flames, a minimum CO concentration existed below which the flamecould not be survived. In such flames, the diffusion flame can act as a parasite to the lean CO-air premixed flame through sharing hydrogenpenetrated from the rich syngas-air premixed flame. Such chemical interactions were examined in detail to describe the flame extinctioncharacteristics. KCI Citation Count: 0 Chemical interaction on flame extinction in downstream interaction of syngas-air and CO-air premixed flames was investigated. Flame stability diagrams mapping the extinction limits for various fuel concentrations as functions of the strain rate were developed for the downstream interactions between syngas-air and CO-air premixed flames. Of particular concern was the impact of the chemical interaction on the flame extinction characteristics. The results showed that the lean extinction boundary was precipitously slanted for extremely small amount of syngas, finally causing the extinction boundary to open up in further increase of strain rate. There existed a critical syngas concentration below which the flame could not be sustained and above which the extinction boundary was double-valued. On the upper branch, hydrogen was produced via the reaction steps CO + H + M [arrow right] HCO + M and HCO + H [arrow right] H2 + CO near the highly rich CO-air premixed flame to participate in CO-oxidation. For highly stretched interacting flames, only a flammable island existed. The pure syngas-air diffusion flame was extinguished at a critical strain rate. Further increase of strain rate forced the flammable island to be shrunk and finally to be a point. For highly stretched interacting flames, a minimum CO concentration existed below which the flame could not be survived. In such flames, the diffusion flame can act as a parasite to the lean CO-air premixed flame through sharing hydrogen penetrated from the rich syngas-air premixed flame. Such chemical interactions were examined in detail to describe the flame extinction characteristics. Chemical interaction on flame extinction in downstream interaction of syngas-air and CO-air premixed flames was investigated. Flame stability diagrams mapping the extinction limits for various fuel concentrations as functions of the strain rate were developed for the downstream interactions between syngas-air and CO-air premixed flames. Of particular concern was the impact of the chemical interaction on the flame extinction characteristics. The results showed that the lean extinction boundary was precipitously slanted for extremely small amount of syngas, finally causing the extinction boundary to open up in further increase of strain rate. There existed a critical syngas concentration below which the flame could not be sustained and above which the extinction boundary was double-valued. On the upper branch, hydrogen was produced via the reaction steps CO + H + M arrow right HCO + M and HCO + H arrow right H sub(2) + CO near the highly rich CO-air premixed flame to participate in CO-oxidation. For highly stretched interacting flames, only a flammable island existed. The pure syngas-air diffusion flame was extinguished at a critical strain rate. Further increase of strain rate forced the flammable island to be shrunk and finally to be a point. For highly stretched interacting flames, a minimum CO concentration existed below which the flame could not be survived. In such flames, the diffusion flame can act as a parasite to the lean CO-air premixed flame through sharing hydrogen penetrated from the rich syngas-air premixed flame. Such chemical interactions were examined in detail to describe the flame extinction characteristics. |
| Author | Kwon, Oh Boong Lim, In Gweon Ha, Jisoo Yun, Jin Han Keel, Sang In Park, Ho Young Kim, Tae Hyung Park, Jeong |
| Author_xml | – sequence: 1 givenname: Jisoo surname: Ha fullname: Ha, Jisoo organization: Dept. of Environmental Science, Keimyung University – sequence: 2 givenname: Jeong surname: Park fullname: Park, Jeong email: jeongpark@pknu.ac.kr organization: Dept. of Mechanical Engineering and Interdisciplinary Program of Marine-Bio, Electric & Mechanical Engineering, Pukyong National University – sequence: 3 givenname: Oh Boong surname: Kwon fullname: Kwon, Oh Boong organization: Dept. of Mechanical Engineering and Interdisciplinary Program of Marine-Bio, Electric & Mechanical Engineering, Pukyong National University – sequence: 4 givenname: In Gweon surname: Lim fullname: Lim, In Gweon organization: Dept. of Mechanical Engineering, Myongji University – sequence: 5 givenname: Jin Han surname: Yun fullname: Yun, Jin Han organization: Environment & Energy Research Division, Korea Institute of Machinery and Materials – sequence: 6 givenname: Sang In surname: Keel fullname: Keel, Sang In organization: Environment & Energy Research Division, Korea Institute of Machinery and Materials – sequence: 7 givenname: Ho Young surname: Park fullname: Park, Ho Young organization: Power Generation Research Laboratory, Korea Electric Power Research Institute – sequence: 8 givenname: Tae Hyung surname: Kim fullname: Kim, Tae Hyung organization: Power Generation Research Laboratory, Korea Electric Power Research Institute |
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| Cites_doi | 10.2172/568983 10.1016/j.ijhydene.2008.09.010 10.1017/S0022112097005636 10.1016/j.ijhydene.2009.08.046 10.1016/j.ijhydene.2010.01.091 10.1016/j.combustflame.2008.04.005 10.1016/0010-2180(95)00132-8 10.1016/S0082-0784(89)80158-4 10.1016/j.ijhydene.2011.02.037 10.1080/00102208608923840 10.1016/j.ijhydene.2010.04.104 10.1016/j.ijhydene.2012.05.074 10.1016/S0082-0784(06)80773-3 10.1016/j.ijhydene.2008.11.087 10.1016/j.ijhydene.2009.06.067 10.1016/S0082-0784(88)80419-3 10.1016/j.proci.2004.08.252 10.1016/j.proci.2006.07.193 10.1016/S0082-0784(85)80695-0 10.1016/j.ijhydene.2013.03.009 10.2514/2.5154 10.1016/S0082-0784(82)80204-X 10.1016/S0010-2180(99)00098-X 10.1016/j.ijhydene.2009.11.078 10.1016/0360-1285(84)90118-7 10.1016/j.ijhydene.2008.07.063 10.1016/S0082-0784(06)80707-1 10.1016/j.combustflame.2007.05.003 10.2172/5681118 |
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| SubjectTerms | Boundaries Carbon monoxide Control Diffusion flames Dynamical Systems Engineering Extinction Flammable Industrial and Production Engineering Islands Mechanical Engineering Parasites Premixed flames Strain rate Vibration 기계공학 |
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| Title | Flame extinction in interacting CO-air and syngas-air premixed flames |
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