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Ammonia Leak Alarm On the ISS Forces Evacuation of US Side: Crew Safe

Posted by Soulskill on from the send-up-a-plumber dept.

New submitter BabelBuilder writes: An alarm signaling a possible ammonia leak aboard the ISS this morning caused the crew to evacuate the U.S. side of the station. All crew aboard the station are safe. "Flight controllers in Mission Control at NASA's Johnson Space Center in Houston saw an increase in pressure in the station's water loop for thermal control system B then later saw a cabin pressure increase that could be indicative of an ammonia leak in the worst case scenario. Acting conservatively to protect for the worst case scenario, the crew was directed to isolate themselves in the Russian segment while the teams are evaluating the situation." They don't yet know whether it was caused by a faulty sensor, a problem in the relay box, or another malfunction.

4 of 95 comments (clear)

  1. Re:Anyone who knows refrigeration? by ColdWetDog · · Score: 3, Informative

    Because ammonia works. It handles wide temperature swings. It is very efficient weight wise. The tech is well known. The instrumentation is well known. The only downside is that it's impressively corrosive. That said, the Russians don't use it.

    Which, in the end, is likely why we do.

    --
    Faster! Faster! Faster would be better!
  2. Re:This is why I like analog gauges... by Anonymous Coward · · Score: 2, Informative

    Interesting, thanks. It looks more complicated than it is since everything is repeated 6x for each engine.

  3. Re:Anyone who knows refrigeration? by Anonymous Coward · · Score: 2, Informative

    Indeed:

    "Compared to other cooling agents such as heptane, toluol or freon, anhydrous ammonia requires a pumping power that is lower by a factor of 6 to 16, at the same time that the specific heat is four to seven times higher."
    Messerschmid & Bertrand, "Space Stations" p. 201. (ISBN 3-540-65464-X)

  4. From one who should know. by DerekLyons · · Score: 4, Informative

    Does anyone know why ammonia was used instead?

    I emailed a friend who worked on Station's ECLSS back in the 90's, and this was his reply:

    "Ammonia has a great specific heat (ability to carry the thermal load), plus its boiling and freezing points work really well in space applications. It's also (aside from toxicity) a very well-known, simple, cheap and fairly easy material to work with. The way the TCS loops work on ISS, the ammonia loop is external; it never mixes with the internal (water) loops. There are external heat exchangers to pass the thermal loads from inside to outside; the water loops out of the pressure vessels through the end cones to the heat exchangers and back inside. The only way for ammonia to get into the water loop (it seems to me) would be a debris strike or something like that in a heat exchanger (and they're protected by MMOD shielding, as well as being rather out of the way)."