Taking your Lifejacket on a ferry

I cannot understand why a CO2 life jacket would be dangerous on a ferry. On an airplane yes. I took my dive buoyancy aid in the cabin for a flight to Perth then on to Melbourn and Great Barrier reef with no issues
 
rogerthebodger said:
I cannot understand why a CO2 life jacket would be dangerous on a ferry. On an airplane yes. I took my dive buoyancy aid in the cabin for a flight to Perth then on to Melbourn and Great Barrier reef with no issues
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The whole thing sounds strange.

The ferry operators would provide some obscure reason or excuse I think.

I took a pocket sized digital barometer on a flight across the Atlantic and it showed just how low the pressure in the cabin was; lower than anything I have ever seen ever whilst on land or at sea. I was amazed to see such a low pressure.
 
If you are travelling on Wightlink while sinking isn’t a common occurrence they have a whole raft of other excuses latest today is broken down vehicle on loading ramp (no tow trucks?)!
 
ashtead said:
If you are travelling on Wightlink while sinking isn’t a common occurrence they have a whole raft of other excuses latest today is broken down vehicle on loading ramp (no tow trucks?)!
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I would have expected a tractor or 4x4 to be nearby at least.

Not exactly proper planning.
 
Cerebus said:
The whole thing sounds strange.

The ferry operators would provide some obscure reason or excuse I think.

I took a pocket sized digital barometer on a flight across the Atlantic and it showed just how low the pressure in the cabin was; lower than anything I have ever seen ever whilst on land or at sea. I was amazed to see such a low pressure.
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On a normal airliner the cabin pressure is equivalent to being at an altitude of 8,000'. A couple of the later models (A380?) are pressurised to a lower altitude, 5,000' I think and some of the smaller corporate jets to 2,000' or thereabouts.
 
john_morris_uk said:
Is that economics or some other reason?
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Economics, ie cost and weight of building structure strong enough for multiple pressurisation cycles.

Cabin altitude ideally would be sea level for passenger comfort so the 5,000 to 8,000 feet is a trade off. 10,000 feet is the maximum altitude, above that, we need oxygen, especially older or infirm people.

Several Comet accidents were related to metal fatigue caused by pressurisation cycles.

 
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colind3782 said:
It's to do with the structure of the fuselage as the inside pressure has to be balanced with the outside pressure so as not to stress it too much.
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I don’t quite follow that. At 30,000 feet plus there will be a pressure difference. Also the clue is in the name ‘pressurised’. I was wondering why they choose the equivalent height that they do.
 
wonkywinch said:
Economics, ie cost and weight of building structure string enough for multiple pressurisation cycles.

Cabin altitude ideally would be sea level for passenger comfort so the 5,000 to 8,000 feet is a trade off. 10,000 feet is the maximum altitude, above that, we need oxygen, especially older or infirm people.

Several Comet accidents were related to metal fatigue caused by pressurisation cycles.

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That makes perfect sense. Thank you.
 
john_morris_uk said:
I don’t quite follow that. At 30,000 feet plus there will be a pressure difference. Also the clue is in the name ‘pressurised’. I was wondering why they choose the equivalent height that they do.
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Structural strength (and weight) depends on the pressure difference. Lower cabin pressure - lighter aircraft - cheaper.
 
I had a yacht delivered by road to Mallaig, and went across on the ferry from Skye as a foot passenger. I did get a few funny looks going up the gangplank, wearing a lifejacket and carrying a rolled up dinghy on my shoulder...
 
Ryanair? Oxygen's extra!

Objecting to lifejackets on a (ferry) boat seems crazy and awful to me and is clearly a bit of a problem in some sailing one-way trip scenarios. But I wonder if there is a sort-of-not-crazy-if-you-squint-hard-enough reason: maybe they're worried about nervous, panicky passengers doing something unexpected, maybe during a real emergency, and finding some way to make it worse. An unlikely event, but I imagine it features more prominently in their safety planning than one-way trips by yacht crew.

(In the same way as I bet airlines won't be thrilled if a nervous flier has a parachute in a cabin bag... then again, they might think you're a D B Cooper wannabe. That could be worse)
 
justanothersailboat said:
In the same way as I bet airlines won't be thrilled if a nervous flier has a parachute in a cabin bag... then again, they might think you're a D B Cooper wannabe.
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At cruising altitude, the cabin altitude in a B787 is around 6,000 feet, 840mb or 12psi.

The doors are each about 2.5 sq m (26 sq ft or 3875 sq in). There is approx 46,000 lbs of air pressing on that (plug) door, ie almost 21 tonnes.

Despite what the popular press might have you believe, it would be impossible to open the door in flight.
 
wonkywinch said:
At cruising altitude, the cabin altitude in a B787 is around 6,000 feet, 840mb or 12psi.

The doors are each about 2.5 sq m (26 sq ft or 3875 sq in). There is approx 46,000 lbs of air pressing on that (plug) door, ie almost 21 tonnes.

Despite what the popular press might have you believe, it would be impossible to open the door in flight.
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What's the outside pressure
 
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