Half a croissant, on a plate, with a sign in front of it saying '50c'
h a l f b a k e r y
Poof of concept

idea: add, search, annotate, link, view, overview, recent, by name, random

meta: news, help, about, links, report a problem

account: browse anonymously, or get an account and write.

user:
pass:
register,


                                                     

Helium encapsulation

Helium jet injected into liquid "resin" to make LTA bubbles
  (+4, -6)
(+4, -6)
  [vote for,
against]

Molecular Helium gas is injected into a hot liquid (plastic, rubber, etc.) at high pressure. Bubbles are ejected at the liquid-surface interface of various sizes influenced by nozzle design and gas velocity, etc. Some of these bubbles should be LTA and could be harvested (?vacuumed...screened for size?). The liquid-helium bubbles solidify at STP and the encapsulated Helium is then at partial-pressure which further reduces the perfect bubble's weight. Only the selected "perfect" bubbles are harvested. The heavier bubbles return to the liquid. These LTA microspheres could be used to reduce weight in any enlosed space...packaging, wings, toys, etc.
supdoc, May 20 2008

Catch-a-Bubble http://www.onlineto...ubble-pr-17559.html
Bubbles that 'set', as required by this idea. Just add helium! [neutrinos_shadow, May 20 2008]

microbubble aerosol microbubble_20aerosol#1101954286
shameless self promotion [xaviergisz, May 21 2008]

The kissing problem http://plus.maths.o.../kissing/index.html
Not dodecahedra, unfortunately [nineteenthly, Feb 24 2010]

Please log in.
If you're not logged in, you can see what this page looks like, but you will not be able to add anything.
Short name, e.g., Bob's Coffee
Destination URL. E.g., https://www.coffee.com/
Description (displayed with the short name and URL.)






       LTA?   

       /The liquid-helium bubbles solidify at STP/   

       ?
Texticle, May 20 2008
  

       The weight of the encapsulator will almost certainly offset any reduction offered by the helium.   

       {Lighter Than Air, Standard Temperature and Pressure(?)}
phoenix, May 20 2008
  

       The helium would quickly diffuse outwards, methinks. Also, the bulk (adding all the particles together) surface area to volume ratio increases as you get smaller particles, so as they get smaller the weight contribution of the polymer increases and the spheres are subsequently weighed down. -
daseva, May 20 2008
  

       The dimensions of the "perfect" microspheres would be determined de facto...whatever works with the proper weight, surface tension, tensile strength, blah, blah, would be selected. They may be larger or smaller in scale depending on the material. Escape by diffusion of the small Helium molecule would need to be prevented by choice of material as well. This is tweak and fiddle science for sure!
supdoc, May 20 2008
  

       You're much better off using hydrogen gas. By a factor of two, no less.   

       either way, I estimate that you'll be an order of magnitude or two away from actually getting this to work - even if you could get a nanometer-scale bubble surface film to solidify, it will be too fragile to do anything other than exist in a laboratory. Oh, an any gas light enough to have a shot at being LTA - will readily diffuse across any thin membrane.   

       It's almost like this isn't meant to work.
Custardguts, May 20 2008
  

       I used to work near a machine that fed helium-filled soap bubbles into a wind tunnel. The bubbles were about one-quarter-inch across, and were supposedly neutrally-buoyant.   

       This idea proposes a solid bubble skin, which is possible, possibly, but not that hard to think of. It's hard to make happen, though.   

       The description is messy and confusing. For instance, the bubble-maker does not need to be at high-pressure.   

       I think it is intended to solidify the bubbles at a temperature slightly higher than standard, so when the helium cools it is at reduced pressure, making a partial-vacuum sphere of each bubble.   

       We've done vacuum spheres, and can say that any advantage from partial vacuum is offset by the need for extra material in the shell. There might be some slight leakage-reduction advantage to having the helium at reduced pressure, but it will still diffuse outward over time. [-]
baconbrain, May 20 2008
  

       (-) for use of /..blah, blah../
afinehowdoyoudo, May 20 2008
  

       //but it will still diffuse outward over time//   

       ummm... but what will diffuse inwards to make up for the pressure loss ? or will the capsule gradually become a vacuum over time.
FlyingToaster, May 21 2008
  

       air   

       diffusion coefficients are inversely proportional to molecular weight
daseva, May 21 2008
  

       The membrane material needs to be impermeable otherwise you would be just as well off working on a zeolite aerogel, etc. ...the high jet velocity of helium injection was simply a method for creating a greater variety of gas bubble dimensions in terms of wall thickness, diameter, etc.
supdoc, May 21 2008
  

       Molecular Helium was chosen as an inert gas vs. reactive Hydrogen while accepting the real but small increase in mass.
supdoc, May 21 2008
  

       Nar, high jet velocity doesn't give all bubble sizes, and getting all sizes would be wasteful, anyhow. Figure out the optimal bubble size and thickness, and design the machinery for that.   

       Hydrogen isn't all that reactive, and most resins are much more flammable than it, anyhow.
baconbrain, May 21 2008
  

       oh god.
WcW, May 21 2008
  

       Everyone is saying the helium would quickly diffuse out of the bubbles, but there aren't calculations to back this up. I've had a bit of a look around but can't find the numbers to do the calculations.   

       We know that LTA helium filled 'bubbles' do exist (e.g. mylar balloons). The question is how small and long lasting can they be made.   

       It would be interesting to make metal bubbles. Metal can be formed into sheets less than 100nm thick which is approximately the same thickness as a soap bubble. Although metal is much denser than soap, it presumably has a lower gas permeability.
xaviergisz, Sep 02 2009
  

       This Material idea of Helium Encapsulation is related with other with Aerogel Vacuum Baloon posted october 2008 here in halfbakery "idea" category (>product>toy).
Yesearch, Feb 23 2010
  

       All this brings to mind something that my maternal grandmother said. It was while we were watching the snow fall in the winter of '74 (her last year; but of course we didn't know that at the time - we all thought she was joking about the hydrazine), standing in the East ballroom looking out over the croquet lawn towards the drilling platform. One of the badgers was trying to chew the straps on my plus-fours, and Camberwell had just brought out another tray of hot toasted muffins.   

       Granny took a long drag, held it for a while and then turned to me, zipping her velour jumpsuit against the chill. "Maxwell, dearest," she said to me, "what exactly the fuck is molecular helium?"
MaxwellBuchanan, Feb 23 2010
  

       //molecular Helium// umm... [edit: [MB] you beat me to it... funny how nobody caught it when this was posted though]   

       //perfect bubble// impossible in a gravity-influenced environment: the meniscus material will flow to the bottom thus unbalancing the sphere, making it pear-shaped. You're only going to get a perfect'ish sphere in microgravity or better.   

       //liquid helium bubbles// what ?   

       //reduce weight... packaging, wings, toys, etc.// then you don't need a perfect sphere anyways... you want duodecahedrons.   

       Natural Gas would probably give pretty good results: cheap, LTA, big molecule (compared to He or H2)
FlyingToaster, Feb 23 2010
  

       Sadly, wonderful though it would be were this a problem solvable by dodecahedra, this isn't it. It may be a version of the "kissing problem", in which case i think the answer would be a triskaidekahedron of some kind, or there's some thing about bubbles with a non-integral mean number of faces, and if that's true there's presumably an optimal packing with a mixture of different polyhedra, though whether they'd drop into place easily seems to be another question.
nineteenthly, Feb 24 2010
  

       The only purpose of the science here is to sound scientific. Every bit of it is wrong or impractical.
ldischler, Feb 24 2010
  

       Surely though, bits of aerogel heat-sealed in a helium atmosphere could be used, couldn't they?
nineteenthly, Feb 24 2010
  

       //aerogel// but what would the advantage be ? over a plain old gas-bag, I mean.
FlyingToaster, Feb 24 2010
  

       ...should have been elemental Helium, not molecular Helium. You might think of the bubble-maker as a jet of Helium gas injected upwards from the bottom of a hot bath of the substance you want to use as the bubble wall material...like plastic, rubber, etc. The jet "blows" through this material and expels bubbles of various sizes above the surface, some of which may be LTA to be removed..."harvested". Like the Catch-a Bubble idea only durable...
supdoc, Oct 26 2010
  

       Although helium is the second most common element in the universe, it is becoming increasingly scarce here on Earth. Bone for wastefulness [-].
Spacecoyote, Oct 27 2010
  


 

back: main index

business  computer  culture  fashion  food  halfbakery  home  other  product  public  science  sport  vehicle