Engineering:Project Beacon

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Short description: Artificial satellites
Beacon
Beacon2.jpg
William J. O'Sullivan (right, standing) and an unidentified engineer with Beacon, June 1959.
Country/ies of originUnited States
TypeAir Density
StatusRetired (1959)
Constellation size
First launch1958
Last launch1959
Total launches2

Beacon was one of America's first satellite programs. A balloon satellite, its objective was to study atmospheric density at its orbital altitude and to be the first United States satellite visible to the naked eye. Booster problems caused both orbital attempts to end in failure.

Background

Beacon was an International Geophysical Year (IGY) satellite program developed by the National Advisory Committee for Aeronautics Space Vehicle Group at Langley under aeronautical engineer William James O'Sullivan, Jr. O'Sullivan held the belief that measuring the air density at orbital altitudes would be of critical importance to a space agency and that a simple balloon satellite, several meters in diameter, would be well suited to the task[1] as their relatively large size and low mass make them especially sensitive to air drag effects.[2] After the Soviets launched the first artificial satellite, Sputnik 1, on October 4, 1957, a high priority was placed on orbiting an American satellite that would be visible from the ground. O'Sullivan's balloon satellite would accomplish that purpose,[1] as, once in orbit, it would be as bright as a third or fourth magnitude star,[3] enabling easy optical and photographic tracking. This brightness led to the satellite being called "Beacon."[1]

Langley aeronautical engineer William James O'Sullivan, Jr.

Spacecraft

Beacon 1 folded up before flight

Beacon was an uninstrumented, inflatable 3.66 meter (12 ft) diameter sphere made of laminated mylar polyester film, 25 micrometers in thickness, and coated on both sides with an 11 micrometer-thick layer of aluminum foil. Before inflation, it folded into a cylindrical package with a mass of 4.2 kg (9.26 lbs). The package was installed into the bottom of the stainless steel payload casing mounted at the top of its rocket. An ejection piston device with a 15-pound spring would push the payload casing away from the motor after burnout. Within the casing was a connecting valve, bellows, a pressurizing nitrogen bottle, and a squib-actuated valve to inflate the sphere. Above this was the transmitter operating on the IGY standard frequency of 108.03 MHz,[4][5] powered by 8 mercury batteries.[4]

Flights

Four suborbital inflation tests were flown on two-stage Nike-Cajun sounding rockets[6] in 1958 from Wallops Island.[7]

Beacon 1 (often called "Explorer 6") was launched on October 24, 1958, at 3:21 am UTC by a Juno 1[4] from Cape Canaveral Air Force Station Launch Complex 5 [8] in Cape Canaveral, Florida. The rocket fell apart in mid-flight: at 112 seconds after launch, the Beacon payload broke away from the vehicle; stages 2 and 3 broke off at 149.9 seconds. The payload fell into the Atlantic Ocean 424 seconds after launch. Total flight time for the first stage was 526 seconds.[4] This launch marked the final flight of the Juno 1 rocket.[9]

After a successful suborbital test on January 21, 1959[10] that lofted a Beacon to 125km in altitude,[2] Beacon 2 was launched from Cape Canaveral Air Force Station Launch Complex 26 on August 15, 1959, at 00:31:00.7 UT on a three-staged Juno 2 (the booster normally comprised four stages; a fourth stage was not required as Beacon 2 would return data on air density from a low orbit.) Headed northeast for orbit on a 48 degree azimuth, the rocket ran into trouble three minutes into the flight, at about the time of first stage cutoff. A series of tracking flares was to be ejected from the guidance. Only the first one was observed to have fired. The guidance compartment, now separated from the first stage, depressurized 23 seconds later, probably from ignition of the remaining tracking flares within the compartment. The guidance and control system then failed, causing the upper stages to fire in the wrong direction, and Beacon 2 fell short of orbit.[11]

Legacy

Though Beacon never successfully orbited, it did play an important role in the establishment of NACA's successor agency, NASA. On April 22, 1958, before the House Select Committee on Science and Astronautics, NACA Director Hugh Dryden explained, among many other things, how large aluminized balloons could be inflated in orbit and used for communication tests. O'Sullivan elaborated on this point, impressing the Congressmen by inflating a full-size Beacon satellite and asserting that much larger balloon spacecraft could easily be developed.

Project Echo, a direct successor of Beacon, was developed by O'Sullivan's team and launched in 1960.[1]

Status

A model of the Beacon package installed in the final stage of a Juno rocket can be found at the National Air and Space Museum.[12]

Table of Launches

Name Launch date Launch vehicle
Beacon Test 1 April 24, 1958 Nike-Cajun
Beacon Test 1R April 25, 1958 Nike-Cajun
Beacon Test 2 May 25, 1958 Nike-Cajun
Beacon Test 3 September 11, 1958 Nike-Cajun
Beacon 1 October 24, 1958 (failed launch) Juno 1
Beacon Test 4 January 21, 1959 Nike-Cajun
Beacon 2 August 15, 1959 (failed launch) Juno 2

See also

  • Explorer 9 (the first successful balloon satellite)
  • Project Echo (a balloon-type passive communications satellite)

References

  1. 1.0 1.1 1.2 1.3 Hansen, james r.. "SP-4308 SPACEFLIGHT REVOLUTION, Chapter 6: The Odyssey of Project Echo". https://history.nasa.gov/SP-4308/ch6.htm. 
  2. 2.0 2.1 "Control Error Aborts NASA Air Density Satellite". Aviation Week and Space Technology (New York: McGraw Hill Publishing Company). August 24, 1959. http://archive.aviationweek.com/issue/19590824#!&pid=30. Retrieved February 14, 2019. 
  3. "Control Error Aborts NASA Air Density Satellite". Aviation Week and Space Technology (New York: McGraw Hill Publishing Company). August 24, 1959. http://archive.aviationweek.com/issue/19590824#!&pid=32. Retrieved February 14, 2019. 
  4. 4.0 4.1 4.2 4.3 " "Beacon 1". https://nssdc.gsfc.nasa.gov/nmc/spacecraft/display.action?id=BEAC1". 
  5. "Vanguard — A History, Appendices. Constance M. Green and Milton Lomask, NASA SP-4202. NASA Historical Reference Collection, NASA History Office, NASA Headquarters, Washington, DC.". https://www.hq.nasa.gov/office/pao/History/SP-4202/appendix.html. 
  6. "Nike-Cajun". http://www.astronautix.com/n/nikecajun.html. 
  7. "Satellite, Beacon 1, Cutaway, Mock-up". https://airandspace.si.edu/collection-objects/satellite-beacon-1-cutaway-mock. 
  8. Wade, Mark. "Beacon 1". http://www.astronautix.com/b/beacon1.html. 
  9. LePage, Andrew. "Explorer: America's first satellite". http://www.drewexmachina.com/download-pdf/SV_1998_02.pdf. 
  10. Krebs, Gunter. "Beacon 1, 2". https://space.skyrocket.de/doc_sdat/beacon.htm. 
  11. Kyle, ed. "KING OF GODS: The Jupiter Missile Story". http://www.spacelaunchreport.com/jupiter5.html. 
  12. "Satellite, Beacon 1, Cutaway, Mock-Up". Smithsonian. https://airandspace.si.edu/collection-objects/satellite-beacon-1-cutaway-mock. 



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