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Experimental study on inhibition of low pressure premixed flat methane-oxygen flames by trifluoromethane 被引量:3

Experimental study on inhibition of low pressure premixed flat methane-oxygen flames by trifluoromethane
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摘要 This paper presents measurements of combus- tion species of low pressure laminar premixed flat meth- ane-oxygen flames inhibited by trifluoromethane (CF3H) using synchrotron radiation-molecular beam mass spec- trometry (SR-MBMS). Fire suppression chemistry of CF3H is investigated by selective detection of combustion radicals and intermediates. Results show that SR-MBMS offers a powerful tool for studying fire suppression chemistry of ha- lon replacements, which may extensively detect combustion species in the inhibited flames, especially radicals and inter- mediates. The suppressant CF3H is completely consumed in the preheat zone of premixed flames and produces fluori- nated radicals such as CF3 and CF2. CF3 is the main radical participating in flame inhibition cycles in the reactive zone. Unlike HBr, HF produced by CF3H is very stable and will not act as a radical scavenger because the bond energy of H-F is much higher than that of H-Br, which is responsible for less effectiveness than conventional bromine-based sup- pressants. This paper presents measurements of combustion species of low pressure laminar premixed flat methane-oxygen flames inhibited by triflnoromethane (CF3H) using synchrotron radiation-molecular beam mass spectrometry (SR-MBMS). Fire suppression chemistry of CF3H is investigated by selective detection of combustion radicals and intermediates. Results show that SR-MBMS offers a powerful tool for studying fire suppression chemistry of halon replacements, which may extensively detect combustion species in the inhibited flames, especially radicals and intermediates. The suppressant CF3H is completely consumed in the preheat zone of premixed flames and produces fluorinated radicals such as CF3 and CF2. CF3 is the main radical participating in flame inhibition cycles in the reactive zone.Unlike HBr, HF produced by CF3H is very stable and will not act as a radical scavenger because the bond energy of H-F is much higher than that of H-Br, which is responsible for less effectiveness than conventional bromine-based suppressants.
作者 CONG Beihua QI Fei LIAO Guangxuan KUANG Kaiqiang ZHOU Xiaomeng
机构地区 State Key Laboratory of Fire Science National Synchrotron Radiation Laboratory
出处 《Chinese Science Bulletin》 SCIE EI CAS 2005年第14期1429-1434,共6页
基金 supported by the China NKBRSF(Project No.2001CB409600)
关键词 火焰抑制 三氟氯乙烯 分子光谱测定术 燃烧媒介 flame inhibition, trifluoromethane, molecular beam mass spectrometry, synchrotron radiation photoionization.
分类号 O643.2 [理学—物理化学]
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  • 1Aiello G,Enea M,Galante G, et al.[J]. Fire Technology, 2009,45(4) : 405-418.
  • 2Tsai W T. [J].Chemosohere,2005,61(11) :1539-1547.
  • 3Jiang Z,Chow W K,Li S F. [J]. Environmental Engineer-ing Science,2007,24(5) :663-674.
  • 4Liu Z, Kim A K. IRC Internal Report 780 [R]. Canada: NRC Institute for Research in Construction, National Re- search Council of Canada, 1999.
  • 5Maliyekkal S M, Antony K R. [J]. Science of the Total Environment, 2010,408(10) :2273-2282.
  • 6Zhou Q,Yang J W,Wang Y Z,et al. [J]. Materials Let- ters,2008,62(12-13) : 1887-1889.
  • 7Mishakov I V,Bedilo A F,Richards R M,et al. [J]. Jour- nal of Catalysis, 2002,206 ( 1 ) : 40-48.
  • 8Copeland G,Lee E P F,Dyke J M,et al. [J]. Journal of Physical and Chemistry A, 2010,114(10) : 3540-3550.
  • 9Hynes R G, Mackie J C, Masri A R. [J]. Journal of Physical Chemistry A,1999,103(1):54-61.
  • 10Prescott H A, Li Z J,Kemnitz E,et al. [J]. Journal of Materials Chemistry,2005,15(43) :4616-4628.

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Chinese Science Bulletin
2005年 第14期

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