Far Out Space Propulsion Conference Blasts Off
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Right: A fusion-powered spaceship starts braking into orbit around Titan, Saturn's methane-shrouded moon and a possible harbor for extraterrestrial life. Basic research on fusion rocket technology is one of several topics for this week's workshop. (NASA/Marshall)
The tenth annual Advanced Propulsion Research Workshop will be held at the University of Alabama Tuesday through Thursday. It's sponsored by NASA, Marshall Space Flight Center, the Jet Propulsion Laboratory, and the American Institute of Aeronautics and Astronautics.
Sessions in the conference include solar and microwave sails, beamed energy, tethers, advanced chemical rockets, nuclear propulsion, fusion research, and antimatter rockets.
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December 3: Mars Polar Lander nears touchdown
December 2: What next, Leonids?
November 30: Polar Lander Mission Overview
November 30: Learning how to make a clean sweep in space
Left: Advanced plasma engines that produce high-power jets of ionized gas are another option for travel to the planets. (NASA/Marshall)
|Other Propulsion Stories this week|
|Apr 6: Ion Propulsion -- 50 Years in the Making - The concept of ion propulsion, currently being demonstrated on the Deep Space 1 mission, goes back to the very beginning of NASA and beyond.
April 6: Far Out Space Propulsion Conference Blasts Off - Atoms locked in snow, a teaspoon from the heart of the sun, and the stuff that drives a starship will be on the agenda of an advanced space propulsion conference that opens today in Huntsville.
April 7: Darwinian Design - Survival of the Fittest Spacecraft
April 7: Coach-class tickets for space? - Scientists discuss new ideas for high-performance, low-cost space transportation
April 8: Setting Sail for the Stars - Cracking the whip and unfurling gray sails are among new techniques under discussion at the 1999 Advanced Propulsion Research Workshop
April 12: Reaching for the stars - Scientists examine using antimatter and fusion to propel future spacecraft.
April 16: Riding the Highways of Light - Science mimics science fiction as a Rensselaer Professor builds and tests a working model flying disc. The disc, or "Lightcraft," is an early prototype for Earth-friendly spacecraft of the future.
Cole said this slushlike mix is unstable, and requires several years of work before test engines could be built. But if successful, it would yield an engine with a specific impulse - a measure of efficiency - of 750 seconds. The Shuttle Main Engine produces 455 seconds.
Another way to enhance chemical rockets is with "strained ring hydrocarbons," Cole explained. Benzene burns quite well because it's built around rings of six carbon atoms. Taking three carbon atoms out produces bicyclopropylidene that has even greater potential energy.
"It's amazingly stable," Cole noted, "so it's not shock sensitive." Its value is not in higher energy - a bicyclopropylidene is only 5 percent more efficient than the refined kerosene used as a first-stage fuel in many rockets - but its greater density - more than double.
"This is very dense, so it doesn't take much tank mass to carry the propellants," Cole continued. It also reduces the size of the tank, so there's less surface area to push through the dense lower atmosphere at liftoff.
The laser beam would be focused just aft of the Lightcraft and superheat the air, which expands, pushing the craft upward. Slots in the craft's skirt push more air into the now-empty region and another pulse of light pushes the craft a little farther. A 15-cm (6 in.) diameter model has been tested in brief flights at the White Sands Missile Range at White Sands, N.M.
Left: Hoisted by a series of air bursts, a 15 cm-diameter test model of the Lightcraft rises in a hangar at White Sands Missile Range. The air is heated by a high-energy laser and focused into a small area just aft of the craft. (Renssalaer Polytechnic Institute)
An advanced version of the Lightcraft would be a large helium-filled balloon that focuses microwaves beamed from the ground or space. The balloon would be ringed by ion engines that would electrify the air to push the craft upwards.
"It's a technical stretch in a lot of areas," Cole admits.
Advanced technologies for nuclear propulsion also are under study.
"If NASA decides to send people to Mars with a nuclear rocket, we want to make sure that the rocket is as safe as possible, and perhaps to improve the performance," Cole said.
The simplest nuclear rocket would pump liquid hydrogen over a reactor core, and expel the superhot gas out a rocket nozzle. Cole said the University of Florida is studying high-temperature, high-strength alloys that would withstand the extreme temperature difference.
Left and below right: The plasma mirror experiments at NASA/Marshall are intended to understand the basic technologies for containing the superhot gases in a fusion plasma, and then release just enough of the energy to propel a rocket. (NASA/Marshall)
(In the 1930s, Arthur Kantrowitz, then with the National Advisory Council for Aeronautics - NASA's predecessor - made the known fusion attempt at Langley Field Station, now Langley Research Center. Kantrowitz and several colleagues rigged a pressure vessel normally used with a wind tunnel and tried to produce controlled fusion. They were far below the necessary pressures and temperatures needed, but it does mark the first attempt. It was described several years ago in American Heritage Invention & Technology.)
"It is not NASA's intent to solve fusion power production problems," Cole said. "We're trying to understand enough of the physics to understand typical plasmas that might be used in propulsion. That way, we'll be ready to take advantage of fusion whenever the problem is solved."
Cole said that solving this problem is essential to large missions - including manned - to the outer planets."Mars is as far as we can go because the trip time is too long," Cole said, "unless we get specific impulses of 50,000 to 100,000 seconds." That's more than 200 times the efficiency of the Shuttle Main Engine, although the thrust would be lower and the fusion engine would fire for weeks at a time.
"Fusion could get us to the outer planets - and perhaps so could antimatter," Cole continued.
Left: Yes, it really does resemble a flying saucer. Faculty and students at Renssalaer Polytechnic Institute in Troy, N.Y., are designing an advanced Lightcraft concept that would use microwave energy beamed to the saucer and converted to electricity to drive magnetohydrodynamic engines that would heat air and propel the craft. (Renssalaer Polytechnic Institute)
And if you thought antimatter propulsion wasn't far-enough out on the research frontier, Mark Millis of NASA/Glenn will review the Breakthrough Physics program that is investigating some subtle and genuinely odd aspects of quantum physics that might be exploited in the next millennium for propulsion.
MSFC Advanced Space Transportation Programs Office.
Leftover Instruments Will Pave Way for New Propulsion Test (March 22, 1998) Well understood and well used scientific insturments will help verify a new instrument as they all fly on JAWSAT.
Spacecraft may fly on "empty" (Jan. 22, 1999) Using a propulsive tether concept, spacecraft may be able to brake or boost their orbits without using onboard fuel. A NASA/Marshall project, named "ProSEDS," is slated to demonstrate braking, by accelerating an expended rocket toward re-entry.
Lecture series to cover Physics for the Third Millennium (Feb. 2, 1998) Lectures on science in the next century will be held at Marshall Space Flight Center during February 9-12, 1998. Relativistic physics, and next generation propulsion techniques are among the topics.
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