Aerodynamic problems on providing fire safety in subway
Copyright policy )Aerodynamic problems on providing fire safety in subway
Analysis of the emergency operation modes of tunnel ventilation systems used in subways has shown that these modes do not provide the steady gas-air flows in case of fire in the rolling stock and its stop in the tunnel; and there is no methodological support for calculations of stability of gas-air flows in tunnel fires. The existing technology for assessing the stability of ventilation flows applied in coal mines and road tunnels can not account for the peculiarities of fires in subways.
TA1001-1280, fire safety, emergency operation modes of tunnel ventilation systems, aerodynamic problems, метрополітен; пожежна безпека; аварійні режими роботи систем тунельної вентиляції; задачі аеродинаміки; сталий рух газоповітряних потоків, subway, Transportation engineering, steady motion of gas-air flows, subway; fire safety; emergency operation modes of tunnel ventilation systems; aerodynamic problems; steady motion of gas-air flows, метрополитен; пожаробезопасность; аварийные режимы работы систем тоннельной вентиляции; задачи аэродинамики; устойчивое движение газовоздушных потоков
TA1001-1280, fire safety, emergency operation modes of tunnel ventilation systems, aerodynamic problems, метрополітен; пожежна безпека; аварійні режими роботи систем тунельної вентиляції; задачі аеродинаміки; сталий рух газоповітряних потоків, subway, Transportation engineering, steady motion of gas-air flows, subway; fire safety; emergency operation modes of tunnel ventilation systems; aerodynamic problems; steady motion of gas-air flows, метрополитен; пожаробезопасность; аварийные режимы работы систем тоннельной вентиляции; задачи аэродинамики; устойчивое движение газовоздушных потоков
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