Sharon Bowman
Sharon Bowman
This sounds so poetic. The velveteen rabbit of wines!
You are using an out of date browser. It may not display this or other websites correctly.
You should upgrade or use an alternative browser.
You should upgrade or use an alternative browser.
question for the scientists here (or anyone who knows the answer)
- Thread starter maureen
- Start date
This sounds so poetic. The velveteen rabbit of wines!
Ian Fitzsimmons
Ian Fitzsimmons
Why is surface tension different for Riesling-based wines, or sweet wine in general, than for, say, Bordeaux blends, in a way that conduces seepage past the closure?
It's not Riesling, it's sugar and alcohol together. So Andrew's real rabbits leak just as well as the Auslesen in the fatcave.originally posted by Ian Fitzsimmons:
Why is surface tension different for Riesling-based wines, or sweet wine in general, than for, say, Bordeaux blends, in a way that conduces seepage past the closure?
It's the tension.originally posted by Jonathan Loesberg:
originally posted by SFJoe:
Surface tension.
Is it more right if you say it twice? I'll try that.
Jeff Grossman
Jeff Grossman
As I recall, water is slightly adhesive. Do the sugar and alcohol additions make it more adhesive or less?
Ian Fitzsimmons
Ian Fitzsimmons
I imagine stronger tension would allow seepage along the side of the cork to maintain continuity with the reservoir of liquid beneath the closure, eventually leading bits of it all the way past the top.
Screwcaps.
Screwcaps.
Arjun Mendiratta
Arjun Mendiratta
Ian, what you are describing is the behavior of a liquid with low, not high, surface tension.
Jay Miller
Jay Miller
originally posted by MarkS:
Their lightness of being releases their spirit selves?
The thought is unbearable.
Ian Fitzsimmons
Ian Fitzsimmons
originally posted by Arjun Mendiratta:
Ian, what you are describing is the behavior of a liquid with low, not high, surface tension.
Break that down for me, Arjun. With low surface tension, the liquid would cease to draw, wouldn't it?
Arjun Mendiratta
Arjun Mendiratta
Ian, surface tension refers to the tendency of a liquid surface to stay intact. It is a consequence of the cohesive forces between molecules at the surface. If these forces are strong, as they are for water, the liquid is said to have a high surface tension. Surface tension can also be thought of as the energy required to create additional surface area, i.e. to move liquid from the bulk to the surface.
The seepage of liquid into the gap between the cork and the bottle, or into any small pore, is ultimately a competition between the wettability of the pore surfaces, which acts to pull liquid into the pore, and surface tension, which acts to prevent expansion of the exposed surface area. As a result, liquids with high surface tension are less likely seep into small pores than liquids with low surface tension, all other things being equal.
For example, if you have a fine sieve, you may be able to "float" a droplet of water on top of it, whereas a lower surface tension liquid like rubbing alcohol will penetrate the pores of the sieve.
The seepage of liquid into the gap between the cork and the bottle, or into any small pore, is ultimately a competition between the wettability of the pore surfaces, which acts to pull liquid into the pore, and surface tension, which acts to prevent expansion of the exposed surface area. As a result, liquids with high surface tension are less likely seep into small pores than liquids with low surface tension, all other things being equal.
For example, if you have a fine sieve, you may be able to "float" a droplet of water on top of it, whereas a lower surface tension liquid like rubbing alcohol will penetrate the pores of the sieve.
Ian Fitzsimmons
Ian Fitzsimmons
So capillary action draws the liquid past the cork while internal cohesion impedes its progress; ergo diminished surface tension = more rapid seepage. Makes more sense than what I wrote, assuming the capillary action is not hugely stronger than the internal cohesion, and that the presence of sugar in the solution, in addition to the alcohol and other wine stuff, does diminish cohesion.
Fwiw, I have a fair amount of German wine and encounter seepage so rarely that I've always attributed it to high fill plus careless handling. On the other hand, I've only encountered in dry wines two or three times ever (and then high fill again seemed a likely culprit).
Fwiw, I have a fair amount of German wine and encounter seepage so rarely that I've always attributed it to high fill plus careless handling. On the other hand, I've only encountered in dry wines two or three times ever (and then high fill again seemed a likely culprit).
Chris Coad
Chris Coad
Maureen, I believe most of it can be attributed to centrifugal force.