Astronaut Propulsion Unit

An Astronaut Propulsion Unit (or Astronaut Maneuvering Unit) is used to move a suited astronaut in the vacuum of space. The first astronaut propulsion unit was the HHMU used on Gemini 4.

Contents

Models

Hand-Held Maneuvering Unit

The EVA "zip" gun used by Edward White on the Gemini 4 mission in 1965. The hand-held gun held several pounds of nitrogen,[1] and allowed limited movement around the Gemini spacecraft. It was also used by astronaut Michael Collins on the Gemini 10 mission in 1966.

USAF Astronaut Maneuvering Unit

The United States Air Force (USAF) Astronaut Maneuvering Unit (AMU) was designed by the U.S. Air Force, which was planning to use the Gemini spacecraft as part of the Manned Orbiting Laboratory, which was a backpack, using hydrogen peroxide as the fuel. The total delta-v capability of the AMU was about 250 feet per second (76.2 meters per second), roughly three times that of the MMU. The astronaut would strap on the AMU like a backpack, and maneuver around using two hand controllers like that of the present-day MMU. Because of the fuel, which comes out as a hot gas, the astronaut's suit had to be modified with the addition of woven steel "pants" made of Chromel-R metal cloth. The AMU was carried aboard the Gemini 9 mission, but was not tested because the astronaut, Eugene Cernan, had difficulty maneuvering from the Gemini cabin to the AMU storage place, at the back of the spacecraft, and overheated, causing his helmet faceplate to fog up. The AMU was also meant to be launched and flown on-board Gemini 12, and to fly untethered from the Gemini spacecraft but was scrubbed two months before the mission.[2]

Automatically Stabilized Maneuvering Unit (ASMU)

In 1973, the ASMU was flown aboard the Skylab 3 mission.[3] Tested inside of the orbiting laboratory, it used nitrogen gas and allowing both unsuited and suited testing of the unit. The Skylab AMU was the closest to the Shuttle MMU, but was not used outside of the spacecraft because the EVAs were conducted with the astronauts attached to life support umbilicals, and to prevent damage to the delicate solar arrays on the Apollo Telescope Mount.

Foot Controlled Maneuvering Unit (FCMU)

Tested within Skylab. The purpose of it was to free the astronaut's hands. It was propelled by cold, high-pressured nitrogen gas located in a tank on the back.[4] It was tested both suited and unsuited.

Manned Maneuvering Unit

The Manned Maneuvering Unit (MMU) is a propulsion backpack which was used by NASA astronauts on three space shuttle missions in 1984. The MMU allowed the astronauts to perform untethered EVA spacewalks at a distance from the shuttle. The MMU was used in practice to retrieve a pair of faulty communications satellites, Westar VI and Palapa B2. Following the third mission the unit was retired from use.

Soviet SPK

The former Soviet Union also used a cosmonaut propulsion system on flights to the space station Mir. The SPK (or UMK, UPMK[5]) was larger than the Space Shuttle MMU, contained oxygen instead of nitrogen and was attached to a safety tether. Despite the tether, the SPK allowed the cosmonaut, wearing the self-contained Orlan spacesuit, to "fly around" the orbiting complex, allowing access to areas nearly impossible to access otherwise. Though tested on Mir in 1990, the cosmonauts preferred using the Strela crane (equivalent to the Mobile Servicing System). The SPK, which was left attached to the outside to the Kvant-2 module, was destroyed when Mir re-entered the atmosphere after decommissioning.

The 21KS[5] system is a completely new design for Orlan-DMA spacesuit not using a safety tether, but a air jet engines. This system uses 6 degrees of freedom.

SAFER

The Simplified Aid for EVA Rescue (SAFER) is a smaller backpack propulsion system intended as a safety device during space walks. It contains 1.4 kg of gaseous nitrogen, which provides much less delta-v capability than the MMU, roughly 10 feet per second (3 meters per second). However SAFER is less complex, less expensive and simpler to use than the MMU, and the limited delta-v is sufficient for the intended rescue-only task. Other Crew Self Rescue (CSR) devices of which prototypes have been developed include an inflatable pole, a telescoping pole, a bi-stem pole and a bola-type lasso device (astrorope) the drifting astronaut could throw to hook to the space station.

References

  1. ^ Kranz, Gene (2000). Failure Is Not an Option. Berkley Books. p. 135. ISBN 0425179877. 
  2. ^ US Spacesuits. Chichester, UK: Praxis Publishing Ltd.. 2006. p. 32. ISBN 0-387-27919-9. http://books.google.com/books?id=cdO2-4szcdgC&source=gbs_navlinks_s. 
  3. ^ [1]
  4. ^ From Engineering Science To Big Science (1998) - Chap.13
  5. ^ a b Russian Spacesuits. Chichester, UK: Praxis Publishing Ltd.. 2003. ISBN 1-85233-732-X. http://books.google.com/books?id=f7pZosHqkbEC&dq=S-901J+suit&source=gbs_navlinks_s. 

External links