|本期目录/Table of Contents|

[1]刘长春,刘新磊,周莎莎,等.火焰脉动在火灾领域相关研究进展[J].中国安全生产科学技术,2018,14(3):48-56.[doi:10.11731/j.issn.1673-193x.2018.03.007]
 LIU Changchun,LIU Xinlei,ZHOU Shasha,et al.Research progress on flame pulsation in fire field[J].JOURNAL OF SAFETY SCIENCE AND TECHNOLOGY,2018,14(3):48-56.[doi:10.11731/j.issn.1673-193x.2018.03.007]
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火焰脉动在火灾领域相关研究进展
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《中国安全生产科学技术》[ISSN:1673-193X/CN:11-5335/TB]

卷:
14
期数:
2018年3期
页码:
48-56
栏目:
学术论著
出版日期:
2018-03-31

文章信息/Info

Title:
Research progress on flame pulsation in fire field
文章编号:
1673-193X(2018)-03-0048-09
作者:
刘长春刘新磊周莎莎杨元博
(西安科技大学 安全科学与工程学院,陕西 西安 710046)
Author(s):
LIU Changchun LIU Xinlei ZHOU Shasha YANG Yuanbo
(College of Safety Science and Engineering, Xi’an University of Science and Technology, Xi’an Shaanxi 710046, China)
关键词:
火焰脉动燃烧池火震荡频率
Keywords:
flame pulsation combustion pool fire oscillation frequency
分类号:
X928.7;TK16
DOI:
10.11731/j.issn.1673-193x.2018.03.007
文献标志码:
A
摘要:
为研究火焰脉动在火灾领域相关研究进展,总结了不同燃料类型的火焰脉动形成机理,较为详细地介绍了火焰脉动现象研究中常用的脉动频率测量方法,列举了LDV、TDLAS、自由基团高频采集等新方法;介绍了池火脉动、射流/羽流气体火脉动在不同燃烧器尺寸,不同外部环境和不同燃料比等影响因素方面的研究内容与进展;对常见的3种不同的火焰脉动模型进行描述和归类;对火焰脉动的规律、机理等在火灾领域的早期识别和检测中的作用、特殊条件对于火焰脉动频率的影响和更加精细的火焰脉动模型的研究等方向提出展望。
Abstract:
To study the relevant research progress of flame pulsation in the fire field, the formation mechanism of flame pulsation under different fuel types were summarized, then the measurement methods of pulsation frequency based on the flame. morphological characteristics, which had been used most commonly in the research of flame pulsation phenomenon, were introduced in detail, and several new methods such as LDV, TDLAS, and high-frequency collection of free radicals were listed and introduced. There search contents and progress in the aspects of Pool fire pulsation, jet/plume gas fire pulsation in different burner sizes, different external environments and different fuel ratios and other influencing factors, and soon were introduced. Three different common models of flame pulsation were described and classified. The prospects were proposed in the directions about the early identification and detection of flame pulsation in the fire field, the influence factors of special conditions on the flame pulsation, and the research on more detailed model of flame pulsation.

参考文献/References:

[1]范维澄,王清安,姜冯辉,等.火灾学简明教程[M].合肥:中国科学技术大学出版社,1995.
[2]安志伟,袁宏永,屈玉贵.数据采集在火焰闪烁频率的测量研究及分析中的应用[J].火灾科学,2000,9(2):43-47. AN Zhiwei,YUAN Hongyong,QU Yugui.Application of Data Acquisition in Measurement and Analysis of Flame Scintillation Frequency Measurement[J].Fire Science,,2000,9(2):43-47
[3]周永杰,余震虹,殷宇.红外火焰探测信号的特征提取研究 [J].传感器与微系统,2017,36(2):8-10. ZHOU Yongjie ,YU Zhenhong ,YIN Yu.Study of feature extraction of infrared flame detection signal [J].Transducer and Microsystem Technologies,2017,36(2):8-10.
[4]夏明,魏东兴,姜涛.一种火焰检测系统的信号处理方法 [J].传感器与微系统,2015,34(12):32-35. XIA Ming ,WEI Dongxing ,JIANG Tao.A signal processing method for flame detection system [J].Transducer and Microsystem Technologies,2015,34(12):32-35.
[5]安志伟,袁宏永,屈玉贵.火焰闪烁频率的测量研究 [J].计算机应用,2000,20(5):66-68. AN Zhiwei,YUAN Hongyong,QU Yugui.The Measurement research on the fire flash frequency[J].Computer Application,2000,20(5):66-68.
[6]王琳,李爱国,郝春雨.基于火焰图像跳动特征的火灾识别算法[C]//中国控制会议,2014.
[7]GOTODA H,ASANO Y,CHUAH K H,et al.Nonlinear analysis on dynamic behavior of buoyancy-induced flame oscillation under swirling flow [J].International Journal of Heat and Mass Transfer,2009,52(23):5423-5432.
[8]TAKAHASHI N,SUZUKI M,DOBASHI R,et al.Behavior of luminous zones appearing on plumes of large-scale pool fires of kerosene [J].Fire Safety Journal,1999,33(1):1-10.
[9]张佳庆,姜晓燕,陆守香,等.100号航空汽油池火燃烧特性试验研究 [J].安全与环境学报,2010,10(5):136-140. ZHANG Jiaqing,JIANG Xiaoyan,LU Shouxiang,et al.Experiment study on the burning characteristics of 100 aviation gasoline pool fire[J].Journal of Safety and Environment,2010,10(5):136-140.
[10]CETEGEN B M.Behavior of naturally unstable and periodically forced axisymmetric buoyant plumes of helium and helium-air mixtures [J].Physics of Fluids,1997,9(12):3742-3452.
[11]KELLER J O,HONGO I.Pulse combustion:The mechanics of NOx production [J].Combustion & Flame,1990,80(S3-4):219-237.
[12]TAKAHASHI N,SUZUKI M,DOBASHI R,et al.Behavior of luminous zones appearing on plumes of large-scale pool fires of kerosene [J].Fire Safety Journal,1999,33(1):1-10.
[13]TREYIN B U,CETIN A E.Fire detection in infrared video using wavelet analysis [J].Optical Engineering,2007,46(6):7204.
[14]HUANG Y,YAN Y,LU G,et al.On-line flicker measurement of gaseous flames by image processing and spectral analysis [J].Measurement Science & Technology,1999,10(8):726.
[15]江平.航空煤油池火脉动频率试验研究 [J].安全与环境学报,2016(4):76-81. JIANG Ping.Experimental study of the fluctuation frequencies of aviation fuel pool fires [J].Journal of Safety and Environment,2016(4):76-81.
[16]MARTINS C A,JR J A C,VERAS C A G,et al.Experimental measurements of the NO x and CO concentrations operating in oscillatory and non-oscillatory burning conditions [J].Fuel,2006,85(1):84-93.
[17]TREYIN B U,CETIN A E.Fire detection in infrared video using wavelet analysis [J].Optical Engineering,2007,46(6):7204.
[18]陈志斌,胡隆华,霍然,等.基于图像亮度统计分析火焰高度特征 [J].燃烧科学与技术,2008,14(6):557-561. CHEN Zhibin,HU Longhua,HUO Ran,et al.Flame Height Characteristics Based on Image Luminance [J].Journal of Combusion Science and Techology,2008,14(6):557-561.
[19]LU G,YAN Y,COLECHIN M,et al.Monitoring of oscillatory characteristics of pulverized coal flames through image processing and spectral analysis [J].IEEE Transactions on Instrumentation & Measurement,2006,55(1):226-231.
[20]WU Y C,WU X C,LU S X,et al.Novel Methods for Flame Pulsation Frequency Measurement with Image Analysis [J].Fire Technology,2012,48(2):389-403.
[21]王延,张永明,廖光煊.微热偶火焰脉动温度测量系统的设计 [J].电子技术应用,1999(3):33-34. WANG Yan,ZHANG Yongming,LIAO Guangxuan.Design of Micro-thermocouple Flame Pulse Temperature Measure- ment System[J].Application of Electronic Technique,1999(3):33-34.
[22]CETEGEN B M,KASPER K D.Experiments on the oscillatory behavior of buoyant plumes of helium and helium-air mixtures [J].Physics of Fluids,1996,8(11):2974-2984.
[23]YAN X Z,NAN J.The measurement on the turbulence jet with 3D LDV system [J].Experiments & Measurements in Fluid Mechanics,2002(2):104-112.
[24]YILMAZ N,DONALDSON A B,LUCERO R E.Experimental study of diffusion flame oscillations and empirical correlations [J].Energy Conversion & Management,2008,49(11):3287-3291.
[25]XU L,YAN Y.A New Flame Monitor with Triple Photovoltaic Cells[C]//Proceedings of the Instrumentation and Measurement Technology Conference,2005 IMTC Proceedings of the IEEE,2006.
[26]GOTODA H,SASO Y.Unsteady motion of pool fire on small-scale burner[J].International Journal of Bifurcation & Chaos,2007,17(6):2185-2193.
[27]DUROX D,YUAN T,VILLERMAUX E.The Effect of Buoyancy on Flickering in Diffusion Flames [J].Combustion Science & Technology,1997,124(1-6):277-294.
[28]LI H,ZHOU X,JEFFRIES J B,et al.Sensing and Control of Combustion Instabilities in Swirl Stabilized Combustors Using Diode-Laser Absorption [J].Aiaa Journal,2007,45(2):390-398.
[29]GOTODA H,UEDA T,SHEPHERD I G,et al.Flame flickering frequency on a rotating Bunsen burner [J].Chemical Engineering Science,2007,62(6):1753-1759. [30]张弛,王波,邹鹏飞,等.同心旋流分层火焰的外激脉动特性统计学分析 [J].航空动力学报,2017,32(8):1801-1808. ZHANG Chi,WANG Bo,ZOU Pengfei,et al.Statistical Analysis on the forced dynomic of internally-stayed-swirling stratified flame [J].Journal of Aerospace Power,2017,32(8):1801-1808.
[31]KYPRAIOU A M, DOWLING A, MASTORAKOS E, et al. Proper orthogonal decomposition analysis of a turbulent swirling self-excited premixed flame [C]//Proceedings of the Aiaa Aerospace Sciences Meeting, 2015.
[32]IUDICIANI P, DUWIG C, HUSSEINI S M, et al. Proper orthogonal decomposition for experimental investigation of flame instabilities [J]. Aiaa Journal, 2012, 50(9): 1843-1854.
[33]张佳庆,姜晓燕,陆守香,等.100号航空汽油池火燃烧特性试验研究 [J].安全与环境学报,2010,10(5):136-140. ZHANG Jiaqing,JIANG Xiaoyan,LU Shouxiang,et al.Experiment study on the burning characteristics of 100 aviation gasoline pool fire[J].Journal of Safety and Environment,2010,10(5):136-140.
[34]蒋新生,徐建楠,冯军,等.航空煤油小尺度池火燃烧规律及火焰结构研究 [J].中国安全科学学报,2016(1):64-68. JIANG Xinsheng,XU Jiannan,FENG Jun,et al.Research on combustion law and flame structure of small scale aviation kerosene pool fire[J].China Safety Science Journal,2016(1):64-68.
[35]WECKMAN E J,SOBIESIAK A.The oscillatory behaviour of medium-scale pool fires [J].Symposium on Combustion,1989,22(1):1299-1310.
[36]CETEGEN B M,AHMED T A.Experiments on the periodic instability of buoyant plumes and pool fires [J].Combustion and Flame,1993,93(1):157-184.
[37]MALALASEKERA W M G,VERSTEEG H K,GILCHRIST K.A review of research and experimental study on the pulsation of buoyant diffusion flames and pool fires [J].Fire & Materials,1996,20(6):261-271.
[38]孙志友,庄磊,陆守香.正方形煤油池火燃烧特性研究 [J].火灾科学,2008(2):93-98. SUN Zhiyou ,ZHUANG Lei ,LU Shouxiang.Study of Rectangular Kerosene Pool Fire Combustion Characte- ristics[J].Fire Safety Science,2008(2):93-98.
[39]HENRIKSEN T L,RING T A,EDDINGS E G,et al.Puffing Frequency and Soot Extinction Correlation in JP-8 and Heptane Pool Fires [J].Fire Safety Science,2008,180(4):699-712.
[40]黎昌海,吴迎春,陆守香,等.封闭空间油池火火焰振荡特性研究 [J].中国科学技术大学学报,2010(4):380-386. LI Changhai ,WU Yingchun ,LU Shouxiang,et al.Study on flame pulsation of pool fires in closed compartments[J].Journal of University of Science andTechnology of China,2010(4):380-386.
[41]刘洪涛,陈志莉,杨毅,等.基于光谱分析的油料池火内部传热特性研究 [J].光谱学与光谱分析,2016(10):3297-3302. LIU Hongtao,CHEN Zhili,YANG Yi,et al.Research on Heat Transfer Characteristics in Oil Pool Fire Based on Spectral Analysis[J].Spectroscopy and Spectral Analysis,2016(10):3297-3302.
[42]徐伯乐,李元洲,毛少华,等.西藏高原环境下油池火的燃烧速率和振荡频率 [J].燃烧科学与技术,2011(3):231-236. XU Bole ,LI Yuanzhou,MAO Shaohua,et al.Pool fire burning rate and oscillation frequency under Tibet plateau environmen[J].Journal of Combustion Science and Technology,2011(3):231-236.
[43]商蕊,方俊,王静舞.高原低压环境小尺寸池火图像特征 [J].燃烧科学与技术,2016(4):324-328. SHANG Rui,FANG Jun,WANG Jingwu.Flame Image Characteristics of Small-Scale Pool Fire in Low Pressure High Altitude Area[J].Journal of Combustion Science and Technology,2016(4):324-328.
[44]FANG J,TU R,GUAN J F,et al.Influence of low air pressure on combustion characteristics and flame pulsation frequency of pool fires [J].Fuel,2011,90(8):2760-2761.
[45]TANG F,HU L,WANG Q,et al.Flame pulsation frequency of conduction-controlled rectangular hydrocarbon pool fires of different aspect ratios in a sub-atmospheric pressure [J].International Journal of Heat & Mass Transfer,2014,76(6):447-451.
[46]HAMINS A,YANG J C,KASHIWAGI T.An experimental investigation of the pulsation frequency of flames [J].Symposium (International)on Combustion,1992,24(1):1695-1702.
[47]SATO H,AMAGAI K,ARAI M.Effect of Gravity on Puffiing Frequencies of Pool Fires [J].Nihon Kikai Gakkai Ronbunshu B Hen/transactions of the Japan Society of Mechanical Engineers Part B,2001,67(662):2596-2603.
[48]ABE H,ITO A,TORIKAI H.Effect of gravity on puffing phenomenon of liquid pool fires [J].Proceedings of the Combustion Institute,2015,35(3):2581-2587.
[49]SUGAWA O,KAWAGOE K,OKA Y,et al.Burning Behavior in a Poorly-Ventilated Compartment Fire Ghosting Fire [J].Fire Science & Technology,2008,9(2):347-352.
[50]BERTIN G,MOST J M,COUTIN M.Wall fire behavior in an under-ventilated room [J].Fire Safety Journal,2002,37(7):615-630.
[51]PRETREL H,SUARD S,AUDOUIN L.Experimental and numerical study of low frequency oscillatory behaviour of a large-scale hydrocarbon pool fire in a mechanically ventilated compartment [J].Fire Safety Journal,2016,83(S):38-53.
[52]吴迎春,吴学成,陆守香,等.顶棚开口受限空间油池火火焰振荡模式研究 [J].燃烧科学与技术,2011(5):425-431. WU Yingchun,WU Xuecheng ,LU Shouxiang,et al.Flame pulsation modes of pool fire in confined compartment with single ceiling opening[J].Journal of Combustion Science and Technology,2011(5):425-431.
[53]DING Y,WANG C,LU S.The effect of azeotropism on combustion characteristics of blended fuel pool fire [J].Journal of Hazardous Materials,2014,271(S):82-88.
[54]周魁斌,蒋军成,张旭.基于火焰脉动的池火灾辐射热流预测模型 [J].南京工业大学学报(自科版),2016,38(4):114-118. ZHOU Kuibin,JIANG Juncheng,ZHANG Xu.Flame pulsation-based model for predicting radiant heat flux of pool fire[J].Journal of Nanjing University of Technology (Natural Science Edition),2016,38(4):114-118.
[55]FUJISAWA N,MATSUMOTO Y,YAMAGATA T.Influence of Co-flow on Flickering Diffusion Flame [J].Flow Turbulence & Combustion,2016(6):1-20.
[56]HU L,HU J,DE RIS J L.Flame necking-in and instability characterization in small and medium pool fires with different lip heights [J].Combustion and Flame,2015,162(4):1095-1096.
[57]HU L.A review of physics and correlations of pool fire behaviour in wind and future challenges [J].Fire Safety Journal,2017,91(S):41-55.
[58]ZUKOSI, E. E., CETEGEN, B. M. and KUBOTA, T.Visible structure of buoyant diffusion flames[C]//Proceedings of the Symposium (International)on Combustion,1985.
[59]FUJISAWA N,MATSUMOTO Y,YAMAGATA T.Influence of Co-flow on Flickering Diffusion Flame [J].Flow Turbulence & Combustion,2016(6):1-20.
[60]DARABKHANI H G,ZHANG Y.Stabilisation Mechanism of a Flickering Methane Diffusion Flame with Co-flow of Air [J].Engineering Letters,2010,18(4):20-21.
[61]DARABKHANI H G,WANG Q,CHEN L,et al.Impact of co-flow air on buoyant diffusion flames flicker [J].Energy Conversion & Management,2011,52(8):2996-3003.
[62]LI J,ZHANG Y.Fuel mixing effect on the flickering of jet diffusion flames [J].Proceedings of the Institution of Mechanical Engineers Part C Journal of Mechanical Engineering Science 1989-1996 (203-210),2011,1(1):1-8.
[63]田艳飞,孙磊,娄春.乙烯扩散火焰脉动特性的实验研究 [J].工程热物理学报,2015(7):1590-1595. TIAN Yanfei,SUN Lei ,LOU Chun.Experimental investi-gation of ethylene diffusion flame flickering characteristics[J].Journal of Engineering Thermophysics,2015(7):1590-1595.
[64]ABDURAKIPOV S S,DULIN V M,MARKOVICH D M,et al.Determining instability modes in a gas flame [J].Technical Physics Letters,2013,39(3):308-311.
[65]PAPADOPOULOS G,BRYANT R,PITTS W.Flow characterization of flickering methane/air diffusion flames using particle image velocimetry [J].Experiments in Fluids,2002,33(3):472-481.
[66]GOTODA H,KAWAGUCHI S,SASO Y.Experiments on dynamical motion of buoyancy-induced flame instability under different oxygen concentration in ambient gas [J].Experimental Thermal and Fluid Science,2008,32(8):1759-1765.
[67]GOTODA H,ASANO Y,CHUAH K H,et al.Nonlinear analysis on dynamic behavior of buoyancy-induced flame oscillation under swirling flow [J].International Journal of Heat and Mass Transfer,2009,52(23):5423-5432.
[68]WANG J W,FANG J,GUAN J F,et al.Flame volume and radiant fraction of jet diffusion methane flame at sub-atmospheric pressures [J].Fuel,2016,167(S):82-88.
[69]CETEGEN B M,DONG Y.Experiments on the instability modes of buoyant diffusion flames and effects of ambient atmosphere on the instabilities[J].Experiments in Fluids,2000,7(3):257-282.
[70]MANIKANTACHARI K R V,RAGHAVAN V,SRINIVASAN K.Effects of burner configurations on the natural oscillation characteristics of laminar jet diffusion flames [J].International Journal of Spray & Combustion Dynamics,2015,7(3):257-282.
[71]BITALA P,NEVRL V,STIK M,et al. On the instability of a modified cup-burner flame in the infrared spectral region [J].Perspectives in Science,2016,7(S):184-189.
[72]江澄,方俊,王静舞,等.横向风对浮力扩散火焰的振荡影响研究 [J].火灾科学,2016(2):59-64. JIANG Cheng,FANG Jun,WANG Jingwu,et al.Effect of cross-wind on oscillation of buoyant diffusion flame[J].Fire Safety Science,2016(2):59-64.
[73]BOULANGER J.Laminar round jet diffusion flame buoyant instabilities:Study on the disappearance of varicose structures at ultra-low Froude number [J].Combustion and Flame,2010,157(4):757-768.
[74]曹海亮,年志远,杨浩林,等.平板狭缝间C1~C4烷烃/空气预混射流火焰的燃烧特性 [J].化工学报,2016,67(11):4609-4614. CAO Hailiang ,NIAN Zhiyuan,YANG Haolin.Combustion characteristics of premixed C1~C4 alkane jet flames between two parallel walls[J].CIESC Jorunal,2016,67(11):4609-4614.
[75]GRANT A J,JONES J M.Low-frequency diffusion flame oscillations [J].Combustion & Flame,1975,25(75):153-160.
[76]BECKER H A,LIANG D.Visible length of vertical free turbulent diffusion flames [J].Combustion & Flame,1978,32(2):115-137.
[77] PAGNI P J. Pool vortex shedding frequencies [J]. Applied Mechanices Review,1990:153-170.
[78]EMORI R I,SAITO K.A Study of Scaling Laws in Pool and Crib Fires [J].Combustion Science & Technology,1983,31(5-6):217-231.
[79]CETEGEN B M,AHMED T A.Experiments on the periodic instability of buoyant plumes and pool fires [J].Combustion & Flame,1993,93(1):157-184.
[80]KOSTIUK L W,CHENG R K.The coupling of conical wrinkled laminar flames with gravity [J].Combustion and Flame,1995,103(1):27-40.

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备注/Memo

备注/Memo:
国家自然科学基金项目(51604215),中国博士后面上基金项目(2016M590962)
更新日期/Last Update: 2018-04-11