[meteorite-list] A Submarine for Saturn's Moon Titan? NASA Backs Way-Out Ideas

From: Ron Baalke <baalke_at_meteoritecentral.com>
Date: Fri, 6 Jun 2014 12:05:23 -0700 (PDT)
Message-ID: <201406061905.s56J5NsT006213_at_zagami.jpl.nasa.gov>

http://www.nbcnews.com/science/space/submarine-saturns-moon-titan-nasa-backs-way-out-ideas-n124166

A Submarine for Saturn's Moon Titan? NASA Backs Way-Out Ideas
By Alan Boyle
NBC News
June 5, 2014

NASA has approved funding for a dozen way-out science projects, including
a proposal for a robotic submarine that could plumb the depths of the
hydrocarbon lakes on Titan, a smog-shrouded moon of Saturn.

"It's a very far-out idea, but it's something that I think we can definitely
do engineering-wise," Steven Oleson of NASA's Glenn Research Center in
Cleveland told NBC News.

The Titan submarine project is just one of 12 proposals selected for study
under Phase I of the NASA Innovative Advanced Concepts Program ? which
is the space agency's equivalent of the Defense Advanced Research Projects
Agency, or DARPA.

  
Phase I grants are worth about $100,000, paid to recipients over the course
of nine months. If the initial studies are successful, projects can go
on to Phase II and receive up to $500,000 for two more years of concept
development.

In the past, NIAC has backed ideas ranging from space elevators to skin-tight
spacesuits to suspended animation.

Oleson and his colleagues on Glenn Research Center's COMPASS team have
gotten a couple of NIAC grants before, for a Venus landsailing rover and
a long-lasting, lithium-powered Venus lander called ALIVE. The team also
helped figure out the technologies needed for NASA's plan to capture a
near-Earth asteroid.

"My group did that in 2011. ... And son of a gun, what we did in two weeks
still looks like what they're planning," Oleson said.

How to build a sub for Titan

The Titan submarine just might be the first probe to dive into a pool
of liquid on another celestial body. In this case, the liquid wouldn't
be water, but the supercold methane and ethane in Kraken Mare, a 720-mile-long
(1,170-kilometer-long) lake. Hydrocarbons that would be gassy on Earth
take on a liquid form on Titan, where the surface temperature is 290 degrees
below zero Fahrenheit (-179 degrees Celsius).

Titan is thought to be an analog to early Earth, and studying what lies
beneath the surface of Kraken Mare could well turn up some scientific
surprises.

Oleson's team will use the NIAC grant to figure out what it would take
to explore the lake, which is thought to be up to 1,000 feet (300 meters)
deep. He'll be working with the project's scientific principal investigator,
Ralph Lorenz of Johns Hopkins University's Applied Physics Laboratory,
as well as Michael Paul of Penn State's Applied Research Laboratory, an
expert on submersible technologies.

"The focus for us is trying to get a vehicle that will operate in a hydrocarbon
sea," Oleson said. "Think of it as liquid natural gas. How would you get
a vehicle to operate in there?"

"We would like to do this during Titan's summer, so that means the 2040s."

The questions to be resolved include how the sub would be powered and
propelled.

"Do you use a plutonium-powered system, or do you put a small reactor
on it, or do you go non-nuclear and take some oxidizer with you? It's
a sea of natural gas, after all," Oleson said. Some sort of gas-powered
fuel cell might do the trick, he said.

NASA has already considered a mission called the Titan Mare Explorer,
or TiME, which would drop a boat into Titan's seas. A submarine would
kick things up a notch, but Oleson emphasized that the research funded
by NIAC represents just the very beginning of what's likely to be a decades-long
process.

"We would like to do this during Titan's summer, so that means the 2040s,"
he said.

The 11 other projects

That's the way it works with NIAC grants: They're just meant to get an
interplanetary party started. Here's a rundown on the other far-out Phase
I projects:

Titan Aerial Daughtercraft: A different team is proposing a mission concept
that involves building a small rotorcraft that could be deployed from
a balloon platform in Titan's atmosphere. The craft could take pictures,
land on Titan's surface to collect samples, and then return to the mothership
to deliver its samples for analysis and recharge its batteries for the
next trip.

WRANGLER: The Weightless Rendezvous And Net Grapple to Limit Excess Rotation
System would use a nanosatellite-based tether system to capture and de-spin
asteroids and space debris.

Comet Hitchhiker: A new kind of spacecraft would use tethers to "harpoon"
a comet or some other type of passing celestial object, hitch a ride,
harvest kinetic energy from the object, and then cut itself loose when
it's time to part ways.

The Aragoscope: This novel space telescope system would take advantage
of a low-cost disk arrangement and the principles of diffraction optics,
with the potential to produce images of the sky that have 1,000 times
the resolution of the Hubble Space Telescope.

Swarm Flyby Gravimetry: This mission concept would be to design a spacecraft
to release a swarm of small, low-cost probes as it flew past an asteroid
or a comet. By tracking the trajectories of those probes, scientists could
map the target object's gravity field and make inferences about its composition
and structure.

PRIDE: The Passive Radio Ice Depth Experiment would probe the icy layer
that covers Europa, one of Jupiter's moons, by analyzing interactions
between the ice and high-energy neutrinos from cosmic rays. The same technology
could be used for other icy worlds such as Ganymede and Enceladus.

PERISCOPE: The Periapsis Subsurface Cave Optical Explorer would perform
photon time-of-flight imaging to map lunar skylights and caves, even to
the point of "seeing around corners" deep below the moon's surface.

Quantum inertial gravimetry and ChipSat sensors: A new kind of architecture
for interplanetary reconnaissance would study other worlds using gravity-mapping
orbiters that send swarms of miniaturized sensor chips down to the surface.

HERTS: The Heliopause Electrostatic Rapid Transit System is a propellant-less
propulsion concept that would use the momentum exchange from protons in
the solar wind to propel a spacecraft out of the solar system. Theory
suggests that the technology could accelerate a spaceship to something
like 225,000 mph (100 to 150 km/sec) over a period of months.

Mars Ecopoiesis Test Bed: Researchers would devise a system to put earthly
organisms in Martian soil under strictly controlled conditions, to determine
whether the Red Planet could sustain terrestrial life.

3-D photocatalytic air processor: This project would create a new type
of catalytic converter, powered by the abundant high-energy radiation
in space, to generate oxygen for life support.

Update for 10:55 a.m. June 6: I've added references to other members of
the Titan sub team, Ralph Lorenz and Michael Paul.
Received on Fri 06 Jun 2014 03:05:23 PM PDT