depressurization valve

  • 1manual depressurization valve — A backup valve in an aircraft pressurization system to control cabin pressurization by manually controlling the outflow of air from the cabin in the event of the failure of the automatic system …

    Aviation dictionary

  • 2cabin pressurization safety valve — A combination pressure and vacuum valve meant to prevent cabin pressurization from exceeding safe limits. The valve normally combines the functions of overpressure relief valve, vacuum relief valve, and dump valve. The overpressure relief valve… …

    Aviation dictionary

  • 3negative pressure relief valve — A relief valve in an aircraft pressurization system that prevents the pressure in the cabin from becoming lower than the ambient outside pressure. The cabin air pressure safety valve combines functions of over pressure relief valve, vacuum relief …

    Aviation dictionary

  • 4ELDV — Electrically Operated Depressurization Valve NASA …

    Acronyms

  • 5ELDV — Electrically Operated Depressurization Valve ( > NASA Acronym List ) …

    Acronyms von A bis Z

  • 6клапан сброса давления — — [А.С.Гольдберг. Англо русский энергетический словарь. 2006 г.] Тематики энергетика в целом EN depressurization valveDPV …

    Справочник технического переводчика

  • 71999 South Dakota Learjet crash — Infobox Aircraft crash caption = N47BA prior to its final flight. date = 1999 10 25 type = Crew incapacitation site = Aberdeen, South Dakota coords = aircraft type = Learjet 35 operator = tail number = N47BA origin = Orlando, Florida destination …

    Wikipedia

  • 8Helios Airways Flight 522 — Artist s depiction of 5B DBY being met by two F 16s of the Hellenic Air Force at 34000 ft Accident summary Date …

    Wikipedia

  • 9Sokol space suit — The Sokol space suit (Russian: Cокол, Falcon ) is a type of Russian space suit, worn by anyone who flies on the Soyuz spacecraft. It was introduced in 1973 and is still used as of 2008. The Sokol is described by its makers as a rescue suit… …

    Wikipedia

  • 10Nuclear meltdown — Three of the reactors at Fukushima I overheated, causing core meltdowns. This was compounded by hydrogen gas explosions and the venting of contaminated steam which released large amounts of radioactive material into the air.[1] …

    Wikipedia