• dandelion (she/her)@lemmy.blahaj.zone
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    4 days ago

    why was it cold, because they couldn’t maintain an internal cabin atmosphere, including temperature?

    Also, I had to look it up, but just wanted to confirm 7000 feet is much lower than typical 737 cruising altitude, which is usually 30,000 - 40,000 feet.

    7000 feet is still pretty high and around where oxygen saturation decreases - could you tell any effect? I just assume they were able to still oxygenate the cabin even if they couldn’t go as high 🤷‍♀️

    • Parafaragaramus@infosec.pub
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      3 days ago

      why was it cold, because they couldn’t maintain an internal cabin atmosphere, including temperature?

      No pilot or Jet mechanic but afaik the pressurisation is happening with bleed air from the turbines that is then cooled down to comfortable levels. So there is no “heater” for the cabin so to speak as for a warmer cabin you just cool down the bleed air less. As such without pressurisation there is also no cabin heat.

    • Cocodapuf@lemmy.world
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      3 days ago

      7000 ft is relatively common for small planes like cessnas, they don’t even keep pressurized cabins, but It’s fine if you stay low. So there’s nothing wrong with that altitude, but it’s awfully low for a jet. The jet will be flying at low fuel efficiency the whole way and it certainly won’t have much wiggle room if something really goes wrong. (You can lose 7000 ft of altitude very quickly)

      • dandelion (she/her)@lemmy.blahaj.zone
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        3 days ago

        ah, I wasn’t sure because I was reading this:

        The oxygen saturation of hemoglobin determines the content of oxygen in blood. After the human body reaches around 2,100 metres (6,900 ft) above sea level, the saturation of oxyhemoglobin begins to decrease rapidly.[2] However, the human body has both short-term and long-term adaptations to altitude that allow it to partially compensate for the lack of oxygen. There is a limit to the level of adaptation; mountaineers refer to the altitudes above 8,000 metres (26,000 ft) as the death zone, where it is generally believed that no human body can acclimatize.

        https://en.m.wikipedia.org/wiki/Effects_of_high_altitude_on_humans

        it seemed like between 7,000 and 8,000 26,000 the air is not suitable, but I figured the pilot wasn’t likely to be taking risks like that, so there must be some explanation

        edit: mixed up feet and meters

        • azertyfun@sh.itjust.works
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          3 days ago

          You’re mixing up feet and meters. The death zone is at 8 km, i.e. 26k ft.

          2100m is barely mountaineering, you can bring grandma and the newborn hiking there and at most you’ll notice a mild shortness of breath.

          In fact normal cabin pressure at cruising altitude is equivalent to 7000 ft. Besides a lot of ear popping most people don’t even notice it, though mild altitude sickness (i.e. a small headache) is possible, but ultimately harmless.

        • Dempf@lemmy.zip
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          3 days ago

          7-8k is fine. There are many towns in the U.S. at or above that elevation.

        • Cocodapuf@lemmy.world
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          3 days ago

          it seemed like between 7,000 and 8,000 the air is not suitable, but I figured the pilot wasn’t likely to be taking risks like that, so there must be some explanation

          Yeah, I mean the atmospheric pressure at altitude varies, it’s definitely not black and white. And it’s true, pressure does start to really drop off around 7000ft, but it’s just starting to drop significantly at that point, that just makes 7k a good ceiling.

          So yeah, this all seems pretty much consistent.

    • Nougat@fedia.io
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      4 days ago

      No oxygen problems that I recall. I don’t think there’s a hypoxia risk until 10K feet? Cold I’m sure because it was like flying with a window open. The heaters for the cabin air probably couldn’t keep up.

      • PastafARRian@lemmy.dbzer0.com
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        4 days ago

        Hypoxia risk is usually around 14k feet. 7k feet is like skiing town tree line altitude, cold as fuck but not dangerous. Fascinating story, thanks for sharing.

      • Anivia@feddit.org
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        3 days ago

        The heaters for the cabin air probably couldn’t keep up.

        This made me curious if planes use “free” excess heat from the jet engines, same as a car would, or if they need to burn fuel to heat the cabin. And it turns out the latter is the case, so not only could the heaters probably not keep up, attempting to even do so would have wasted a ton of fuel.

        • Nougat@fedia.io
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          3 days ago

          Fuel that was already being burned at a high rate because of flying down in thicker air.

    • thespcicifcocean@lemmy.world
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      3 days ago

      actually, cabins are typically pressurized to around 10,000 ft, not sea level, iirc. so this was actually a higher pressure than is typically experienced in a pressurized cabin.

      I’m wrong

      I got mixed up. the limit for unpressurized cabins is 10,000 ft, so if you’re flying a small plane without supplemental oxygen you can’t go higher than that

      • thebestaquaman@lemmy.world
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        3 days ago

        Do you have a source for this? My only reference here is hiking at > 10 000 ft (3000 m), and from that I can say that this seems very unlikely: If you stay at 3000 for a couple hours without acclimating first, you will definitely start to feel the effects. To be fair, you’re usually not moving around a lot in an aircraft, but a couple hours at 3000 m can make you feel sluggish and weak, and even a bit light-headed, you could even get a mild headache from oxygen deprivation.

        Note that not everyone will see severe symptoms already at 3000 m. Plenty of people can go to 4000 m before seeing significant symptoms. However, given that I’ve never heard of anyone experiencing altitude sickness in a properly pressurised aircraft, it seems unlikely to me that they’re pressurised to 3000 m.

    • Fondots@lemmy.world
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      4 days ago

      Anecdotally, the highest altitude I’ve ever been at hiking was around 11,000ft, and the group I was hiking with started feeling it a little bit around 9000-10,000 ft.

      It wasn’t dramatic, where we really noticed it was after we’d made camp, we had a little downtime and there was a bit of an open area, so we started throwing around a Frisbee, and running around chasing the Frisbee we could feel we were getting winded a bit quicker than we usually would.

      Age, fitness, genetics, etc. will of course factor into that, but I suspect that most reasonably healthy people sitting in an airplane probably wouldn’t feel much at 7000ft. Maybe they would if they were jogging up and down the aisle of the plane, but even then it probably wouldn’t be anything too obvious, and if they didn’t know anything about altitude sickness they’d probably chalk it up to being tired from the mental stress of air travel- getting to the airport, making the connection, security, lost baggage, etc.

      • Rivalarrival@lemmy.today
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        3 days ago

        and the group I was hiking with started feeling it a little bit around 9000-10,000 ft.

        Hiking. Physical activity. You’ll feel it a lot sooner than if you’re just sitting in your seat, bored out of your skull.

        Legally, the FAA doesn’t require passengers to be on oxygen until cabin altitude is above 15,000 feet. Most aircraft are pressurized to the equivalent of 5000-7000 feet pressure altitude.

      • PoliteDudeInTheMood@lemmy.ca
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        3 days ago

        I was in Ecuador recently, Quito which is 9350ft. The second the plane door opened, I felt it. Leaving the plane the air was so thin I could barely stand up. The altitude sickness was alot more for me than “being tired”. And I had started altitude sickness pills 2 days before my flight.

    • Rivalarrival@lemmy.today
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      3 days ago

      just assume they were able to still oxygenate the cabin even if they couldn’t go as high

      Aircraft are typically pressurized to the equivalent of about 5000-7000 feet altitude.

      They do not oxygenate the cabin. The oxygen supplies on board are usually in the form of chemical generators, sometimes known as “oxygen candles”, and can only provide about 15 minutes supply. That should be plenty of time to descend below 10,000 feet, where everyone can come off oxygen. They don’t “burn” those chemical generators except in actual emergencies.

      Pilots and crew have a sufficient supply of bottled oxygen. Pilots and crew are required to go on oxygen if they spend more than 30 minutes above 12,500 feet cabin pressure, or any time over 14,000 feet. Passengers are required to be on supplemental oxygen above 15,000 feet cabin pressure.

      Above 35,000 feet flight altitude, at least one pilot must either be on oxygen, or have a mask that can be donned in less than 5 seconds.

      • Kewlio251@midwest.social
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        3 days ago

        The oxygen requirements only come into play when you fly depressurized. The reason that passengers aren’t on oxygen when you are flying pressurized at 30,000 feet (probably 5-7,000 ft pressure altitude inside the plane) is that the air they are pressurizing (thin, high altitude air) is still the same ratio of nitrogen/oxygen/CO2 even though there are smaller amounts of each.

        The FAAs requirement of people being on supplemental oxygen only matters in non-pressurized flight, like small Cessnas and pressurized aircraft experience a depressurization emergency.

        • Rivalarrival@lemmy.today
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          3 days ago

          The oxygen requirements only come into play when you fly depressurized.

          That is true for the 12,500, 14,000, and 15,000 feet cabin pressure numbers I gave, yes.

          However, the oxygen requirement associated with the 35,000 foot number I gave applies to both pressurized and unpressurized flight. If your aircraft is at or above 35,000 feet pressure altitude, at least one of the pilots must be on oxygen, or must have a quick-donning mask available at all times.

    • JustAnotherPodunk@lemmy.world
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      3 days ago

      I frequently fly at 10 to 12 thousand feet msl and have no issues. Supplemental O2 is only required from 12500 to 14000 for durations longer than 30 minutes. It is required above 14k for the crew according to the regs. At 15k, everyone on board needs oxygen or a pressurized cabin.