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    Journals >Chinese Journal of Ship Research >Volume 18 >Issue 6 >Page 119 > Article
    • Chinese Journal of Ship Research
    • Vol. 18, Issue 6, 119 (2023)
    Experimental study on smoke temperature distribution characteristics in corridors of crew cabins
    Zhiqiang ZHAO, Xiao CHEN, Shouxiang LU, Ning KANG, Yi ZHANG, and Jinbo WANG
    Author Affiliations
  • State Key Laboratory of Fire Science, University of Science and Technology of China, Hefei 230027, China
    • show less
    DOI: 10.19693/j.issn.1673-3185.03116 Cite this Article
    Zhiqiang ZHAO, Xiao CHEN, Shouxiang LU, Ning KANG, Yi ZHANG, Jinbo WANG. Experimental study on smoke temperature distribution characteristics in corridors of crew cabins[J]. Chinese Journal of Ship Research, 2023, 18(6): 119 Copy Citation Text show less
    References

    [3] MCCAFFREY B J, QUINTIERE J G, HARKLEROAD M F. Estimating room temperatures and the likelihood of flashover using fire test data correlations[J]. Fire Technology, 17, 98-119(1981).

    [4] XING Z L, MAO J F, HUANG Y L et al. Scaled experimental study on maximum smoke temperature along corridors subject to room fires[J]. Sustainability, 7, 11190-11212(2015).

    [5] HU L H, HUO R, LI Y Z et al. Full-scale burning tests on studying smoke temperature and velocity along a corridor[J]. Tunnelling and Underground Space Technology, 20, 223-229(2005).

    [6] HU L H, HUO R, WANG H B et al. Experimental studies on fire-induced buoyant smoke temperature distribution along tunnel ceiling[J]. Building and Environment, 42, 3905-3915(2007).

    [7] LI L M, CHENG X D, WANG X G et al. Temperature distribution of fire-induced flow along tunnels under natural ventilation[J]. Journal of Fire Sciences, 30, 122-137(2012).

    [8] MENG N, WANG Q, LIU Z X et al. Smoke flow temperature beneath tunnel ceiling for train fire at subway station: reduced-scale experiments and correlations[J]. Applied Thermal Engineering, 115, 995-1003(2017).

    [9] ZHAO Y C, ZHU G Q, GAO Y J. Experimental study on smoke temperature distribution under different power conditions in utility tunnel[J]. Case Studies in Thermal Engineering, 12, 69-76(2018).

    [10] JI J, TAN T T, GAO Z H et al. Numerical investigation on the influence of length–width ratio of fire source on the smoke movement and temperature distribution in tunnel fires[J]. Fire Technology, 55, 963-979(2019).

    [11] OKA Y, OKA H, IMAZEKI O. Ceiling-jet thickness and vertical distribution along flat-ceilinged horizontal tunnel with natural ventilation[J]. Tunnelling and underground space technology, 53, 68-77(2016).

    [12] OKA Y, OKA H. Velocity and temperature attenuation of a ceiling-jet along a horizontal tunnel with a flat ceiling and natural ventilation[J]. Tunnelling and Underground Space Technology, 56, 79-89(2016).

    [13] EPSTEIN M. Buoyancy-driven exchange flow through small openings in horizontal partitions[J]. Journal of Heat Transfer, 110, 885-893(1988).

    [14] ZHANG J Q, LU S X, LI C H et al. Fire-induced temperature correlations in ceiling vented compartments[J]. Fire Technology, 51, 369-379(2015).

    [19] KWEON O S, KANG H, KIM H Y. Experimental study on the spread characteristics of initial fires according to corridor types[J]. Journal of the Korean Society of Hazard Mitigation, 21, 49-59(2021).

    [22] HE Y P, FERNANDO A, LUO M C. Determination of interface height from measured parameter profile in enclosure fire experiment[J]. Fire Safety Journal, 31, 19-38(1998).

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    Zhiqiang ZHAO, Xiao CHEN, Shouxiang LU, Ning KANG, Yi ZHANG, Jinbo WANG. Experimental study on smoke temperature distribution characteristics in corridors of crew cabins[J]. Chinese Journal of Ship Research, 2023, 18(6): 119
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