Russia Plans "long-lived" Venus Probe |
Russia Plans "long-lived" Venus Probe |
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Newbie ![]() Group: Members Posts: 12 Joined: 6-November 05 From: Bexleyheath, Kent, United Kingdom Member No.: 545 ![]() |
Russia Plans "Long-Lived" Venus Probe The press secretary of the Russian Federal Space Agency, Vyacheslav Davidenko, has said that Russia will design and launch a long-living probe to Venus by 2015. The probe is known as Venera-D. Davidenko told a news briefing that within the federal Space budget for 2006-2015 was envisaged, “work to develop a principally new spacecraft, Venera D, intended for detailed studies of the atmosphere and surface of Venus”. “It is expected that the craft with a long, more than one month period of active existence will land on the surface of the planet that is the nearest to the earth. Nobody has done such thing on Venus so far.” Source: ITAR-TASS -------------------- "Space is big. Really big. You just won't believe how vastly, hugely, mind-boggingly big it is. I mean, you may think it's a long way down the street to the chemist, but that's just peanuts to space."
The Hitch-Hikers Guide to the Galaxy Douglas Adams 1952 - 2001 |
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![]() Senior Member ![]() ![]() ![]() ![]() Group: Members Posts: 2530 Joined: 20-April 05 Member No.: 321 ![]() |
QUOTE (Waspie_Dwarf @ Nov 7 2005, 12:19 PM) “It is expected that the craft with a long, more than one month period of active existence will land on the surface No word on the thermal strategy: Build a spacecraft that can withstand the heat. Or, use refrigeration to keep the probe cool. Or some combination of both. A probe that was built to withstand the heat might well last indefinitely, much longer than a month. Would this be the first Soviet/Russian spacecraft to use an RTG? I think they have been able to rely upon batteries and solar panels thus far. The next question is what a long-lived probe's long life would be for. Data on wind/temperature/pressure variations would be interesting, but may turn out to be boringly constant. It's possible that wind would blow some dust around, but that's no guarantee. Skyward looking cameras could show variation in cloud structure blowing overhead. One baseline instrument that seems to me to provide a clear need for life beyond an hour would be a seismograph, which is of diminished value without a long life span. Additionally, if there is a sampling/instrument arm, then arbitrarily long mission durations could yield the benefit of more sampling, especially with irradiative spectrometers that require long integration times. Maybe a long, double-jointed arm could scan a grid around the lander, moving a small suite of MER-like instruments carefully around the base. It would then be essential to keep the arm's movements from interfering with the seismometer. |
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![]() Senior Member ![]() ![]() ![]() ![]() Group: Members Posts: 2454 Joined: 8-July 05 From: NGC 5907 Member No.: 430 ![]() |
QUOTE (JRehling @ Nov 7 2005, 03:24 PM) No word on the thermal strategy: Build a spacecraft that can withstand the heat. Or, use refrigeration to keep the probe cool. Or some combination of both. A probe that was built to withstand the heat might well last indefinitely, much longer than a month. Would this be the first Soviet/Russian spacecraft to use an RTG? I think they have been able to rely upon batteries and solar panels thus far. The next question is what a long-lived probe's long life would be for. Data on wind/temperature/pressure variations would be interesting, but may turn out to be boringly constant. It's possible that wind would blow some dust around, but that's no guarantee. Skyward looking cameras could show variation in cloud structure blowing overhead. One baseline instrument that seems to me to provide a clear need for life beyond an hour would be a seismograph, which is of diminished value without a long life span. Additionally, if there is a sampling/instrument arm, then arbitrarily long mission durations could yield the benefit of more sampling, especially with irradiative spectrometers that require long integration times. Maybe a long, double-jointed arm could scan a grid around the lander, moving a small suite of MER-like instruments carefully around the base. It would then be essential to keep the arm's movements from interfering with the seismometer. While I have no illusions regarding the complexity this would add to such a mission, perhaps the lander could be attached to a balloon that would periodically rise into the cooler heights, then settle down somewhere else for a while. Perhaps a lack of longevity can be made up for in visiting more places on Venus. -------------------- "After having some business dealings with men, I am occasionally chagrined,
and feel as if I had done some wrong, and it is hard to forget the ugly circumstance. I see that such intercourse long continued would make one thoroughly prosaic, hard, and coarse. But the longest intercourse with Nature, though in her rudest moods, does not thus harden and make coarse. A hard, sensible man whom we liken to a rock is indeed much harder than a rock. From hard, coarse, insensible men with whom I have no sympathy, I go to commune with the rocks, whose hearts are comparatively soft." - Henry David Thoreau, November 15, 1853 |
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![]() Administrator ![]() ![]() ![]() ![]() Group: Admin Posts: 5172 Joined: 4-August 05 From: Pasadena, CA, USA, Earth Member No.: 454 ![]() |
I've always been curious, what domestic uses could there be for the technologies needed to explore Venus's surface -- high temperature and pressure? I don't think scientific needs (like exploring deep-sea volcanoes) count. Is there a need in, say, manufacturing or something for robotics, electronics, and sensors that can operate at Venusian temperatures and pressures? I think that support of the development of the rovers was probably aided by the obvious military uses that you could put smart, autonomous rovers to -- it always helps to be able to demonstrate down-to-earth uses for expensive NASA technologies.
By the way you don't necessarily need to get to the high temperatures that the Venera landers encountered. David Crisp kept pointing out at the VEXAG meeting that you could land in the crater Cleopatra (which is at quite high altitude) and find significantly lower ambient temperature and potentially learn a lot about Venus, namely how the heck a planet that hot can support a topographic feature as high as Maxwell Montes. --Emily -------------------- My website - My Patreon - @elakdawalla on Twitter - Please support unmannedspaceflight.com by donating here.
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![]() Senior Member ![]() ![]() ![]() ![]() Group: Members Posts: 2488 Joined: 17-April 05 From: Glasgow, Scotland, UK Member No.: 239 ![]() |
Emily:
The trouble with spin-off applications from Venusian surface technology is that there really aren't that many times we're going to find uses for deep-sea fireman's suits on Earth! Bob Shaw -------------------- Remember: Time Flies like the wind - but Fruit Flies like bananas!
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Newbie ![]() Group: Members Posts: 7 Joined: 7-May 05 Member No.: 380 ![]() |
ESA's page on Venera-D
http://www.esa.int/SPECIALS/ESA_Permanent_...0LFW4QWD_0.html And for those who can read russian ![]() http://www.novosti-kosmonavtiki.ru/content...rs/223/45.shtml |
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