----- Original Message -----
Sent: Monday, November 14, 2005 2:26
AM
Subject: Re: [PSUBS-MAILIST] Re:
Variable Ballast Calculations, Bill
Hi Paul.
I'd be glad to explain the values for you of
compressing the subs interior atmosphere via the ballast tanks
filling.
If your (AT THE MOMENT, because it becomes 1
atm again later) ambient tanks were filling without any air loss,
that would compress
the interior atmosphere of your hull if your
tanks were connected to the hull's interior.
The value of that would be that you did not
lose any air and could pump the water back out of the
tanks using inside the hull pumps
and then your atmosphere would expand again
and be 14.7 psi and that means you could surface
without having to have air tanks.
Which is exactly how the Hunley ballast
tanks worked.
So one value would be you wouldn't need air
tanks to surface with a savings on interior space. NO air tanks needed
ever to blow.
Another value would be that, lets say you
were at 2 atmospheres, or 33 feet, (remember we have 1 atm on us at
the surface already)
and you allowed the incoming pressure of the
ballast tanks filling to compress your
internal atmosphere so the interior and exterior were
equalized at that depth, now lets say you
closed off the water inlet valve at 33 ft,
which would mean you wouldn't pressurize any more when you went
deeper,
then that means you could decend another
atmosphere (3 atm now) to 66 feet (by forcing the sub under with the
planes) and only have ONE atmosphere of FELT external
pressure
exerted against the outside of the sub even
though you were at 3 atm. Because you already had the interior pressurized
to 2 atm before
you shut off the valve. That means you could
design a hybrid ambient/1atm sub with a hull that could go deeper than a
typical ambient
could safely go because your body has
to follow the "no decompression scuba dive table limits" and in
a typical ambient at 66 ft your
body is under the pressure of 3 atm, whereas
in the way I explained the hybrid above, your body would only be under the
pressure of
2 atm even though your sub was at 3
atm. If you compressed your interior atmosphere ambiently to 33
ft so now your body would be under
2 atm, then you close off the
valve, but you dive your sub to 99 ft or 4 atm and the outside water
pressure on the sub is only 2 FELT atm because
the interior is pushing back with 2 atm of
its own against outside water pressure. Not needing air tanks and your body able to be submerged
deeper and longer than in a normal ambient
sub would be the main valuable
benefits and a third side benefit would also be that your hull would
not have to be anywhere near as strong as a 1
atm hull because you are for a
large part using it as an ambient hull which requires little strength
and
thickness and you could submerge to deeper
atmospheres with less FELT water
pressure pressing against the hull because you already had
several atmospheres inside the sub pushing
outward . Do these sound like valuable assets? I think they have possibilities for no
decompression
ambient sub operation at scuba dive table
limit depths.
Recap.....no air tanks needed for ballast
tanks, body can dive deeper and longer than normal ambient
sub
and hull doesn't need to be as strong as 1
atm WHEN USED AT PROPER DEPTHS FOR YOUR DESIGN.
Did that help you Paul?
Bill.
----- Original Message -----
Sent: Sunday, November 13, 2005
11:42 PM
Subject: Re: [PSUBS-MAILIST] Re:
Variable Ballast Calculations, Bill
Could someone please explain the value of connecting the
ballast tank air volumes with the sub interior?
thanks-
Paul
On 11/13/05, Joseph Perkel <joeperkel@hotmail.com>
wrote:
Bill,
"Now imagine.....you ENCLOSED those
tanks so their bottoms were enclosed and then you put a water inlet on/off valve at the top of both
tanks on the INSIDE of the sub. Now you'd have a Kittridge sub that had ambient tanks that as they filled
they compressed the interior atmosphere of your sub"
This is an interesting idea worth
investigating. I wonder though, about a disparity in volumes between
the tanks and interior as well as rate of air flow and how
everything ties together.
Thanks
Joe