| NASA Center: |
Jet Propulsion Laboratory |
|---|
| Image # : |
JPL-29090 |
|---|
| Date : |
11/21/1997
|
|---|
|
Title
Deep Space 1 in Cleanroom
Full Description
Deep Space 1 was launched in October 1998 as part of NASA's New
Millennium Program, which is managed by JPL for NASA's Office of Space
Science, Washington, DC. The California Institute of Technology in
Pasadena manages JPL for NASA. Deep Space 1 used a unique ion drive propulsion
system.
Unlike the fireworks of most chemical rockets using solid or liquid
fuels, the ion drive emits only an eerie blue glow as ionized
(electrically charged) atoms of xenon are pushed out of the engine.
Xenon is the same gas found in photo flash tubes and many lighthouse
bulbs.
The almost imperceptible thrust from the system is equivalent to the
pressure exerted by a sheet of paper held in the palm of your hand. The
ion engine is very slow to pick up speed, but over the long haul it can
deliver 10 times as much thrust per pound of fuel as more traditional
rockets.
Previous ion propulsion systems, like those found on some
communications satellites, were not used as the main engines, but only
to keep the satellites on track. Deep Space 1 is the first spacecraft
to use this important technology as its primary means of propulsion.
The importance of ion propulsion is its great efficiency," says Dr.
Marc Rayman, project manager for Deep Space 1. "It uses very little
propellant, and that means it weighs less so it can use a less
expensive launch vehicle and ultimately go much faster than other
spacecraft. This opens the solar system to many future exciting
missions which otherwise would have been unaffordable or even
impossible," added Dr. Rayman.
The ion particles travel out at about 68,000 miles per hour. However,
Deep Space 1 doesn't move that fast in the other direction, because
it is much heavier than the ion particles. By the end of the mission,
the ion engine will have changed the spacecraft's speed by about 6,800
mph (over 11,000 kph). The technology is so efficient that it only
consumes about 3.5 ounces (100 g) of xenon per day, taking about four
days to expend just one pound (0.4 kg).
The Deep Space 1 ion engine could have a total operating time of more
than 583 days (14,000 hours) by the end of its mission in the fall of
2001.
Keywords
Deep Space 1 New Millennium Program Ion Propulsion Ion Engine
Subject Category
Space Probes,
Reference Numbers
- Center:
JPL
- Center Number:
JPL-29090
- GRIN DataBase Number:
GPN-2000-000503
Source Information
- Creator/Photographer: NASA
- Original Source: DIGITAL
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Updated October 31, 2002
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