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References
Lanchava O., Nozadze G., Jangidze M. (2022) Georgian Patent, P 7371.
Thomas P.H. (1958) Fire Research Notes 351, http://www.iafss.org/publications/frn/351/-1
Thomas P.H. (1968) Fire Research Notes 723, Fire Research Station, Watford, UK.
Vaitkevicius A., Carvel R., Colella F. (2016) Fire Technology 52: 1619–1628 DOI: 10.1007/s10694-015-0512-z.
Ingason H., In: Beard A., Carvel R. (2012) Handbook of Tunnel Fire Safety, ICE Publishing, London: 273–308.
Lanchava O., Javakhishvili G. (2021) Impact of strong fires on a road tunnel ventilation system. Bulletin of the Georgian National Academy of Sciences 15(4): 38-45.
Lanchava O. (2019) Analysis of critical air velocity for tunnel fires controlled by ventilation, Mining Journal 1(42): 126-132.
Lanchava O.A. (1998) Hygroscopic heat and mass transfer in underground structures. GTU, Tbilisi: 272.
Lanchava O., Nozadze G., Bochorishvili N., Lebanidze Z., Arudashvili N., Jangidze M., Tsikarishvili K. (2014) Criteria for evaluation of emergency firefighting in transport tunnels. Transport Bridge Europe-Asia: 29-34.
Lanchava O., Ilias N. (2020) Critical velocity analysis for safety management in case of tunnel fire. MATEC Web of Conferences 305, 00023, SESAM 2019 https://doi.org/10.1051/matecconf/202030500023
Lanchava O., Ilias N., Radu S.M., Nozadze G., Jangidze M. (2022) Preventing the spread of combustible products in tunnels by implementing a divisible system. Environmental Engineering and Management Journal 21/4: 627-635. https://journals.4science.ge/index.php/GS/$$$call$$$/plugins/generic/funding/controllers/grid/funder-grid/add-funder?submissionId=1377
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