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  • Experiments Show Titan Lakes May Fizz with Nitrogen

    From baalke@1:2320/100 to sci.space.news on Mon Mar 20 20:34:46 2017
    From Newsgroup: sci.space.news


    https://www.jpl.nasa.gov/news/news.php?feature=6778

    Experiments Show Titan Lakes May Fizz with Nitrogen
    Jet Propulsion Laboratory
    March 15, 2017

    A recent NASA-funded study has shown how the hydrocarbon lakes and seas
    of Saturn's moon Titan might occasionally erupt with dramatic patches
    of bubbles.

    For the study, researchers at NASA's Jet Propulsion Laboratory in Pasadena, California, simulated the frigid surface conditions on Titan, finding
    that significant amounts of nitrogen can be dissolved in the extremely
    cold liquid methane that rains from the skies and collects in rivers,
    lakes and seas. They demonstrated that slight changes in temperature,
    air pressure or composition can cause the nitrogen to rapidly separate
    out of solution, like the fizz that results when opening a bottle of carbonated

    soda.

    NASA's Cassini spacecraft has found that the composition of Titan's lakes
    and seas varies from place to place, with some reservoirs being richer
    in ethane than methane. "Our experiments showed that when methane-rich
    liquids mix with ethane-rich ones -- for example from a heavy rain, or
    when runoff from a methane river mixes into an ethane-rich lake -- the nitrogen is less able to stay in solution," said Michael Malaska of JPL,
    who led the study.

    The result is bubbles. Lots of bubbles.

    The release of nitrogen, known as exsolution, can also occur when methane
    seas warm slightly during the changing seasons on Titan. A fizzy liquid
    could also cause problems, potentially, for a future robotic probe sent
    to float on or swim through Titan's seas. Excess heat emanating from a
    probe might cause bubbles to form around its structures -- for example, propellers used for propulsion -- making it difficult to steer or keep
    the probe stable.

    Magic Island Mechanism?

    The notion of nitrogen bubbles creating fizzy patches on Titan's lakes
    and seas is relevant to one of the more enchanting unsolved mysteries
    Cassini has investigated during its time exploring Titan: the so-called
    "magic islands." During several flybys, Cassini's radar has revealed small areas on the seas that appeared and disappeared, and then (in at least
    one case) reappeared. Researchers proposed several potential explanations
    for what could be creating these seemingly island-like features, including
    the idea of fields of bubbles. The new study provides details about the mechanism that could be forming such bubbles, if they are indeed the culprit.

    "Thanks to this work on nitrogen's solubility, we're now confident that bubbles could indeed form in the seas, and in fact may be more abundant
    than we'd expected," said Jason Hofgartner of JPL, who serves as a co-investigator
    on Cassini's radar team and was a co-author of the study.

    Freezing Fizz and Breathing Lakes

    In characterizing how nitrogen moves between Titan's liquid reservoirs
    and its atmosphere, the researchers also coaxed nitrogen out of a simulated ethane-rich solution as the ethane froze to the bottom of their tiny, simulated Titan lake. Unlike water, which is less dense in its solid form
    than its liquid form, ethane ice would form on the bottom of Titan's frigid pools. As the ethane crystalizes into ice, there's no room for the dissolved nitrogen gas, and it comes fizzing out.

    While the thought of hydrocarbon lakes bubbling with nitrogen on an alien
    moon is dramatic, Malaska points out that the movement of nitrogen on
    Titan doesn't just move in one direction. Clearly, it has to get into
    the methane and ethane before it can get out.

    "In effect, it's as though the lakes of Titan breathe nitrogen," Malaska
    said. "As they cool, they can absorb more of the gas, 'inhaling.' And
    as they warm, the liquid's capacity is reduced, so they 'exhale.'"

    A similar phenomenon occurs on Earth with carbon dioxide absorption by
    our planet's oceans.

    Results of the study were published online in February by the journal
    Icarus.

    Final Titan Flyby Nears

    Cassini will make its final close flyby of Titan -- its 127th targeted encounter -- on April 22. During the flyby, Cassini will sweep its radar
    beam over Titan's northern seas one final time. The radar team designed
    the upcoming observation so that, if magic island features are present
    this time, their brightness may be useful for distinguishing between bubbles, waves and floating or suspended solids.

    The flyby also will bend the spacecraft's course to begin its final series
    of 22 plunges through the gap between Saturn and its innermost rings,
    known as Cassini's Grand Finale. The 20-year mission will conclude with
    a dive into Saturn's atmosphere on Sept. 15.

    The Cassini-Huygens mission is a cooperative project of NASA, ESA (European Space Agency) and the Italian Space Agency. NASA's Jet Propulsion Laboratory, a division of Caltech in Pasadena, manages the mission for NASA's Science Mission Directorate, Washington. JPL designed, developed and assembled
    the Cassini orbiter.

    More information about Cassini:

    http://www.nasa.gov/cassini

    http://saturn.jpl.nasa.gov

    News Media Contact
    Preston Dyches
    Jet Propulsion Laboratory, Pasadena, Calif.
    818-394-7013
    preston.dyches@jpl.nasa.gov

    2017-071

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