Have Coffee, Will Travel
November 25, 2008|
Submitted by Eric Daniel
Ok, here’s the situation. You’re a coffee junkie who happens to be a NASA astronaut, not to mention having a doctorate in chemical engineering, trapped in a weightless environment where the lack of gravity makes it impossible to enjoy that mandatory cup of joe in the morning.
Solution? Fabricate yourself a zero-g coffee cup out of a piece of overhead plastic from your handy dandy shuttle flight data file book, which is exactly what NASA astronaut and engineer Dr. Donald Pettit did.
The problem in space is that, with a lack of gravity, there’s no way to draw the liquid out of the cup (if you think about it, one normally brings the cup up to the mouth and tilts it to either “pour” the liquid into the mouth, or in the case of hot fluids, such as coffee, bring the surface of the liquid close to the mouth where it can be sipped.) In space, no matter how you tilt the cup, the liquid is not coming out. This is why astronauts have traditionally consumed fluids from pouches, using straws to draw the liquid out.
Well, Dr. Pettit, having worked with Los Alamos labs on a variety of experiments, including reduced gravity fluid flow and problems in detonation physics (yes, he’s a rocket scientist) applied the same technological concepts to his coffee cup design that rocket designers do to their zero-g fuel tanks. Zero-g fuel tanks are shaped like a traditional aircraft wing (airfoil), with a large rounded edge (the leading edge) and a sharp angle on the other (trailing) edge. As Dr. Pettit explains in this video, “If the angle (of the trailing edge of the airfoil “cup”) is less than 2 x (90-contact wetting angle), then the fluid will be drawn up out of the coffee ( by wicking action created by the interaction between the fluid and the angled surface of the cup.) This will allow you to sip, not suck, a fluid out of the cup as the wicking action will continue to draw more fluid up from the bottom of the cup.
Granted, this little discovery isn’t on the same order of criticality as the “Franken-filter” NASA engineers had to come up with for the lithium hydroxide CO2 scrubbers on the Apollo 13 lunar module, but it’s still pretty slick.
12 minutes later, someone opened a Starbucks on the ISS.
Posted by: Jon A. | November 26, 2008 at 10:24 AM
that really helps military peoples
Posted by: singleton | November 29, 2008 at 12:47 AM
>that really helps military peoples
Well, son, it will help after you enlist in the Mobile Infantry.
Posted by: FASTAC 6 | December 01, 2008 at 11:21 AM
I posted this because I thought it was a pretty slick piece of applied science. Will it save lives? No. Will it ever be used as a replacement for foil pouches and straws in space travel? No. Is it cool? Yes.
Posted by: Eric Daniel | December 01, 2008 at 01:12 PM
I've used the MSR and liked it very much. It is, however, awkward when you're on the move.
What's needed is a "Tee" fitting for the Camelbak drinking tube which will hook into the output of the MSR so you can pump the water directly into the bladder.
As it is now, to use it from a stream, on-the-go, you have to remove the bladder, hold the MSR output tube in the bladder filler with one hand, pump with the other hand, and try to keep the MSR water input tube in the clean water as it flows by.
This photo: http://lewisperdue.com/MSR-water-filter.jpg
shows how awkward this procedure can be.
This photo taken in late June 2008 in the Carson-Iceberg wilderness area in the Eastern Sierra just over the ridge from the USMC mountain warfare training facility.
Posted by: Lewis Perdue | December 02, 2008 at 06:52 PM
"Will it save lives? No."
But might save a tool-bag or two.
Regards,
Mr.Sparkle
Posted by: Mr.Sparkle | December 03, 2008 at 12:23 PM
You need to struggle so much to have a coffee? If, I was in such a position, probably, I would have given up coffee. But anyway, that's a great innovation for the one's who are addicted to coffee. If it was me, I would have gone for some other solution.
Posted by: Abbey | April 18, 2009 at 09:14 AM