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Splashdown (spacecraft landing) - Wikipedia, the free encyclopedia

Splashdown (spacecraft landing)

From Wikipedia, the free encyclopedia

Locations of Atlantic Ocean splashdowns of American spacecraft.
Locations of Atlantic Ocean splashdowns of American spacecraft.


Locations of Pacific Ocean splashdowns of American spacecraft.
Locations of Pacific Ocean splashdowns of American spacecraft.

Splashdown is the method of landing a spacecraft by parachute in a body of water. It was used by American manned spacecraft prior to the Space Shuttle program. It is also possible for the Russian Soyuz spacecraft and Chinese Shenzhou spacecraft to land in water, though this is only a contingency. The only example of an (unintentional) splashdown in Soviet history is the Soyuz 23 landing.

As the name suggests, the capsule parachutes into an ocean or other large body of water. The properties of water cushion the spacecraft enough that there is no need for a braking rocket to slow the final descent as was the case with Russian and Chinese manned space capsules, which returned to Earth over land. The American practice came in part because American launch sites are on the coastline and launch primarily over water[citation needed]. Russian and Chinese launch sites are far inland and most early launch aborts are likely to descend on land.

The splashdown method of landing was utilized for Mercury, Gemini and Apollo (including Skylab, which used Apollo capsules). On one occasion a Soviet spacecraft, Soyuz 23, punched through the ice of a frozen lake (nearly killing the cosmonauts), and this was unintentional.

On early Mercury flights, a helicopter attached a cable to the capsule, lifted it from the water and delivered it to a nearby ship. This was changed after the sinking of Liberty Bell 7. All later Mercury, Gemini and Apollo capsules had a flotation collar (similar to a rubber life raft) attached to the spacecraft to increase their buoyancy. The spacecraft would then be brought alongside a ship and lifted onto deck by crane.

After the flotation collar is attached, a hatch on the spacecraft is usually opened. At that time, some astronauts decide to be hoisted aboard a helicopter for a ride to the recovery ship and some decided to stay with the spacecraft and be lifted aboard ship via crane. (Because of his overshoot aboard Aurora 7, and mindful of the fate of Liberty Bell 7, Scott Carpenter alone egressed through the nose of his capsule instead of through the hatch, waiting for recovery forces in his life raft.) All Gemini and Apollo flights (Apollos 7 to 17) used the former, while Mercury missions from Mercury 6 to Mercury 9, as well as all Skylab missions and Apollo-Soyuz used the latter, especially the Skylab flights as to preserve all medical data.

The new Crew Exploration Vehicle, which will replace the Space Shuttle (which lands on a modified aircraft-style runway), will be designed to be recovered on land using a combination of parachutes and airbags, although it is also designed to make a contingency splashdown (only for an in-flight abort) if needed. Although not new, NASA and the Air Force originally wanted to place a paraglider recovery system to allow for a controlled, precise landing on land on ski-like skids (a landing system used on X-15 rocket plane), most likely on the dry lakebeds at Edwards Air Force Base in California. This idea was first proposed for the Gemini spacecraft, but was dropped in favor of the traditional parachute system.

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[edit] Disadvantages

While the water the spacecraft landed on would cushion it to a degree, the impact could still be quite violent for the astronauts.

There are several disadvantages for splashdowns, foremost among them being the danger of the spacecraft flooding and sinking. This happened to Gus Grissom when the hatch of his Mercury-Redstone 4 capsule malfunctioned and blew prematurely. The capsule was lost and Grissom nearly drowned.

Another problem associated with splashdown is that if the capsule comes down far from any recovery forces the crew are exposed to greater danger. As an example, Scott Carpenter in Mercury 7 overshot the assigned landing zone by 400 km. This was caused by a retroattitude misalignment caused by the spacecraft automatic guidance system. It took three hours for a recovery helicopter to reach his location. These recovery operation mishaps can be mitigated by placing several vessels on standby in several different locations, but this is quite an expensive option.

[edit] Locations of splashdowns

[edit] Manned spacecraft

Spacecraft Landing Date Coordinates Recovery Ship Miss Distance
Freedom 7 May 5, 1961 27°13.7′N 75°53′W / 27.2283, -75.883 (Freedom 7) USS Lake Champlain (CVS-39) 5.6 km
Liberty Bell 7 July 21, 1961 27°32′N 75°44′W / 27.533, -75.733 (Liberty Bell 7) USS Randolph (CVS-15) 9.3 km
Friendship 7 February 20, 1962 21°26′N 68°41′W / 21.433, -68.683 (Friendship 7) USS Noa (DD-841) (USS Randolph (CVS-15)**) 74 km
Aurora 7 May 24, 1962 19°27′N 63°59′W / 19.45, -63.983 (Aurora 7) USS Farragut (DLG-6) (USS Intrepid (CVS-11)**) 400 km
Sigma 7 October 3, 1962 32°06′N 174°28′W / 32.1, -174.467 (Sigma 7) USS Kearsarge (CVS-33) 7.4 km
Faith 7 May 16, 1963 27°20′N 176°26′W / 27.333, -176.433 (Faith 7) USS Kearsarge' (CVS-33) 8.1 km
Gemini 3 March 23, 1965 22°26′N 70°51′W / 22.433, -70.85 (Gemini 3) USS Intrepid (CVS-11) 111 km
Gemini 4 June 7, 1965 27°44′N 74°11′W / 27.733, -74.183 (Gemini 4) USS Wasp (CVS-18) 81 km
Gemini 5 August 29, 1965 29°44′N 69°45′W / 29.733, -69.75 (Gemini 5) USS Lake Champlain (CVS 39) 270 km
Gemini 7 December 18, 1965 25°25′N 70°07′W / 25.417, -70.117 (Gemini 7) USS Wasp (CVS-18) 12 km
Gemini 6A December 16, 1965 23°35′N 67°50′W / 23.583, -67.833 (Gemini 6A) USS Wasp (CVS-18) 13 km
Gemini 8 March 17, 1966 25°14′N 136°0′E / 25.233, 136 (Gemini 8) USS Leonard F. Mason (DD-852) (USS Boxer (LPH-4)**) 2 km
Gemini 9A June 6, 1966 27°52′N 75°0′W / 27.867, -75 (Gemini 9A) USS Wasp (CVS-18) 0.7 km
Gemini 10 July 21, 1966 26°45′N 71°57′W / 26.75, -71.95 (Gemini 10) USS Guadalcanal (LPH-7) 6 km
Gemini 11 September 15, 1966 24°15′N 70°0′W / 24.25, -70 (Gemini 11) USS Guam (LPH-9) 5 km
Gemini 12 November 15, 1966 24°35′N 69°57′W / 24.583, -69.95 (Gemini 12) USS Wasp (CVS-18) 5 km
Apollo 1 March 7, 1967 Planned N of Puerto Rico USS Essex (CVS-9)** Planned
Apollo 7 October 22, 1968 27°32′N 64°04′W / 27.533, -64.067 (Apollo 7) USS Essex (CVS-9) 3 km
Apollo 8 December 27, 1968 8°7.5′N 165°1.2′W / 8.125, -165.02 (Apollo 8) USS Yorktown (CVS-10) 2 km
Apollo 9 March 13, 1969 23°15′N 67°56′W / 23.25, -67.933 (Apollo 9) USS Guadalcanal (LPH-7) 5 km
Apollo 10 May 26, 1969 15°2′S 164°39′W / -15.033, -164.65 (Apollo 10) USS Princeton (CVS-37) 2.4 km
Apollo 11 July 24, 1969 13°19′N 169°9′W / 13.317, -169.15 (Apollo 11) USS Hornet (CVS-12) 3.1 km
Apollo 12 November 24, 1969 15°47′S 165°9′W / -15.783, -165.15 (Apollo 12) USS Hornet (CVS-12) 3.7 km
Apollo 13 April 17, 1970 21°38′24″S 165°21′42″W / -21.64, -165.36167 (Apollo 13) USS Iwo Jima (LPH-2) 1.9 km
Apollo 14 February 9, 1971 27°1′S 172°39′W / -27.017, -172.65 (Apollo 14) USS New Orleans (LPH-11) 1.1 km
Apollo 15 August 7, 1971 26°7′N 158°8′W / 26.117, -158.133 (Apollo 15) USS Okinawa (LPH-3) 1.9 km
Apollo 16 April 27, 1972 0°45′S 156°13′W / -0.75, -156.217 (Apollo 16) USS Ticonderoga (CVS-14) 5.6 km
Apollo 17 December 19, 1972 17°53′S 166°7′W / -17.883, -166.117 (Apollo 17) USS Ticonderoga (CVS-14) 1.9 km
Skylab 2 June 22, 1973 24°45′N 127°2′W / 24.75, -127.033 (Skylab 2) USS Ticonderoga (CVS-14) 9.6 km
Skylab 3 September 25, 1973 30°47′N 120°29′W / 30.783, -120.483 (Skylab 3) USS New Orleans (LPH-11) 8 km?
Skylab 4 February 8, 1974 31°18′N 119°48′W / 31.3, -119.8 (Skylab 4) USS New Orleans (LPH-11) 8 km?
ASTP Apollo July 24, 1975 21°52′N 162°45′W / 21.867, -162.75 (ASTP Apollo)] USS New Orleans (LPH-11) 7.3 km
Soyuz 23 October 16, 1976 Lake Tengiz Helicopter Mi-8 Not intended to land in water


Planned recovery ship **

[edit] Unmanned spacecraft

Spacecraft Landing Date Coordinates Recovery Ship Miss Distance
Jupiter AM-18 May 28, 1959 2,735 km SE Cape Canaveral USS Kiowa (ATF-72)  ? km
Mercury-Big Joe September 9, 1959 2,407 km SE Cape Canaveral USS Strong (DD-758) 925 km
Mercury-Little Joe 2 December 4, 1959 319 km SE Wallops Is, VA USS Borie (DD-704)  ? km
Mercury-Redstone 1A December 19, 1960 378.2 km SE Cape Canaveral USS Valley Forge (CV-45) 33 km
Mercury-Redstone 2 January 31, 1961 679 km SE Cape Canaveral USS Donner (LSD-20)[1] 111 km
Mercury-Atlas 2 February 21, 1961 2,305 km SE Cape Canaveral USS Donner (LSD-20)[2] 30? km
Mercury-Atlas 4 September 13, 1961 320 km E of Bermuda USS Decatur (DD-936) 63 km
Mercury-Atlas 5 November 29, 1961 472 km SE of Bermuda USS Stormes (DD-780) 48 km
Gemini 2 January 19, 1965 16°33.9′N 49°46.27′W / 16.565, -49.77117 (Gemini 2) USS Lake Champlain (CVS-39) 38 km
Apollo 201 February 26, 1966 8°11′S 11°09′W / -8.18, -11.15 (Apollo 201) USS Boxer (LPH-4) 72 km
Apollo 202 August 25, 1966 16°07′N 168°54′E / 16.12, 168.9 (Apollo 202) USS Hornet (CVS-12) 370 km
Gemini 2-MOL November 3, 1966 SE KSC near Ascension Is. USS La Salle (LPD-3) 13 km
Apollo 4 November 9, 1967 30°06′N 172°32′W / 30.1, -172.53 (Apollo 4) USS Bennington (CVS-20) 16 km
Apollo 6 April 4, 1968 27°40′N 157°59′W / 27.667, -157.983 (Apollo 6) USS Okinawa (LPH-3) 80 km
Zond 5 September 21, 1968 32°38′S 65°33′E / -32.63, 65.55 (Zond 5) Vasiliy Golovin
Zond 8 October 27, 1970 Indian Ocean


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