Kosmos 1818

Kosmos 1818
	Illustration of Kosmos 1818
Mission type	Radar ocean surveillance
COSPAR ID	1987-011A
SATCAT no.	17369
Mission duration	~ 5 to 6 months
Spacecraft properties
Spacecraft type	Plazma-A
Launch mass	1,500 kilograms (3,307 lb)
Start of mission
Launch date	February 1, 1987, 23:31:00 UTC
Rocket	Tsyklon-2
Launch site	Baikonur 90
Orbital parameters
Reference system	Geocentric
Eccentricity	0.0016868
Perigee altitude	775 kilometres (482 mi)
Apogee altitude	799 kilometres (496 mi)
Inclination	65.01 degrees
Period	100.61 minutes
Epoch	April 15, 2014 UTC 00:20:33.89

Last updated March 02, 2023

Kosmos 1818 was a nuclear powered Soviet surveillance satellite in the RORSAT program, which monitored NATO vessels using radar. Kosmos 1818 was the first satellite to use the TOPAZ-1 fission reactor. In July 2008, the satellite was damaged, and leaked a trail of sodium coolant.

Description

Kosmos 1818 was launched on February 1, 1987 on a Tsyklon-2 rocket from the Baikonur Cosmodrome. It was put into an orbit about 800 km (500 mi) above the Earth's surface at an inclination of 65° and a period of 100.6 minutes. The satellite had a mission life of about five to six months.^[1]^[2]

The satellite was powered by a TOPAZ 1 nuclear reactor. This was cooled by liquid sodium-potassium, NaK, metal, it used a high-temperature moderator containing hydrogen and highly enriched uranium fuel. It produced electricity using a thermionic converter. It had a Plazma-2 SPT electric engine.^[3] Its mission was to search the oceans for naval and merchant vessels, using radar.

Unlike the earlier Soviet RORSAT satellites, Kosmos 1818 and its twin, Kosmos 1867, were launched into high orbits. This mitigated to possibility of mishaps resulting in uncontrolled re-entry of radioactive material, as had occurred with Kosmos 954 and Kosmos 1402, which showered the Earth with radioactive debris.^[3]

In 1992, Kosmos 1818 had an approximate visual magnitude of 3.3.^[4]

Fragmentation

About July 4, 2008, either Kosmos 1818 was hit by an object or a coolant tube cracked due to thermal stresses by repeated solar heating.^[5] The US Space Surveillance Network reported that about thirty objects were formed. These have orbital periods ranging from 100.5 to 101.5 minutes. Some of the debris appears to be metallic spheres. These could have resulted from the NaK coolant.

Russian Space Forces chief of staff General Alexander Yakushin indicated that the debris was high above the orbit of the International Space Station and did not pose any threat of radioactive contamination to the Earth.^[6]

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Upravlyaemy Sputnik Aktivnyy, or US-A, also known in the west as Radar Ocean Reconnaissance Satellite or RORSAT, was a series of 33 Soviet reconnaissance satellites. Launched between 1967 and 1988 to monitor NATO and merchant vessels using radar, the satellites were powered by nuclear reactors.

SNAP-10A was a US experimental nuclear powered satellite launched into space in 1965 as part of the SNAPSHOT program. The test marked both the world's first operation of a nuclear reactor in orbit, and the first operation of an ion thruster system in orbit. It is the only fission reactor power system launched into space by the United States. The reactor stopped working after just 43 days due to a non-nuclear electrical component failure. The Systems Nuclear Auxiliary Power Program reactor was specifically developed for satellite use in the 1950s and early 1960s under the supervision of the U.S. Atomic Energy Commission.

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References

↑ "Cosmos 1818". Real Time Satellite Tracking. N2YO.com. Retrieved 24 January 2009.
↑ "Cosmos 1818". NSSDC Master Catalog Search. NASA . Retrieved 24 January 2009.
1 2 "New Debris Seen from Decommissioned Satellite with Nuclear Power Source" (PDF). Orbital Debris Quarterly News. NASA. 24 January 2009. Archived from the original (PDF) on 20 March 2009. Retrieved 24 January 2009.
↑ "Spacecraft Particularly Suited for International Participation: Category I". SPACEWARN Bulletin Number 461. NASA. March 25, 1992. Retrieved 24 January 2009.
↑ David, Leonard (15 January 2009). "Old Nuclear-Powered Soviet Satellite Acts Up". News. Space.com. Retrieved 31 January 2023.
↑ Isachenkov, Vladimir (21 January 2009), "Russia says old nuclear satellite poses no threat", NBC News

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[n2yo-1] "Cosmos 1818". Real Time Satellite Tracking. N2YO.com. Retrieved 24 January 2009.

[NSSDC-2] "Cosmos 1818". NSSDC Master Catalog Search. NASA . Retrieved 24 January 2009.

[debris-3] 1 2 "New Debris Seen from Decommissioned Satellite with Nuclear Power Source" (PDF). Orbital Debris Quarterly News. NASA. 24 January 2009. Archived from the original (PDF) on 20 March 2009. Retrieved 24 January 2009.

[SPACEWARN-4] "Spacecraft Particularly Suited for International Participation: Category I". SPACEWARN Bulletin Number 461. NASA. March 25, 1992. Retrieved 24 January 2009.

[David-5] David, Leonard (15 January 2009). "Old Nuclear-Powered Soviet Satellite Acts Up". News. Space.com. Retrieved 31 January 2023.

[MSNBC-6] Isachenkov, Vladimir (21 January 2009), "Russia says old nuclear satellite poses no threat", NBC News

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v t e Nuclear-powered Earth satellites
Nuclear power in space List of nuclear power systems in space
Examples	SNAP-10A Transit-4A Transit-4B Transit 5BN-1 Transit 5BN-2 Kosmos 198 Kosmos 209 Kosmos 367 Kosmos 402 Kosmos 469 Kosmos 516 Kosmos 626 Kosmos 651 Kosmos 654 Kosmos 723 Kosmos 724 Kosmos 785 Kosmos 860 Kosmos 861 Kosmos 954 Kosmos 1176 Kosmos 1249 Kosmos 1266 Kosmos 1299 Kosmos 1365 Kosmos 1372 Kosmos 1402 Kosmos 1607 Kosmos 1670 Kosmos 1677 Kosmos 1682 Kosmos 1736 Kosmos 1771 Kosmos 1818 Kosmos 1860 Kosmos 1867 Kosmos 1900 Kosmos 1932 LES-8 LES-9
Re-entered	Kosmos 954 Kosmos 1402 Nimbus-B Nimbus 3 Transit 5BN-3 1973 Launch failure
See also Category:Nuclear power in space

v t e ← 1986 · Orbital launches in 1987 · 1988 →
January	Meteor-2 No.17 Kosmos 1811 Kosmos 1812 Kosmos 1813 Progress 27 Kosmos 1814 Kosmos 1815 Molniya-3 No.42 Kosmos 1816 Kosmos 1817
February	Kosmos 1818 Ginga Soyuz TM-2 Kosmos 1819 USA-21 Kosmos 1820 Kosmos 1821 Momo 1 Kosmos 1822 Kosmos 1823 Kosmos 1824 GOES 7
March	Progress 28 Kosmos 1825 Kosmos 1826 Kosmos 1827, Kosmos 1828, Kosmos 1829, Kosmos 1830, Kosmos 1831, Kosmos 1832 Kosmos 1833 Gran' No.31L Palapa B2P SROSS-A FLTSATCOM-6 Kvant-1
April	Kosmos 1834 Kosmos 1835 Kosmos 1836 Progress 29 Kosmos 1837 Kosmos 1838, Kosmos 1839, Kosmos 1840 Kosmos 1841 Kosmos 1842
May	Kosmos 1843 Gorizont No.23L Kosmos 1844 Kosmos 1845 USA-22, LIPS-3, USA-23, USA-24, USA-25 Polyus Progress 30 Kosmos 1846 Kosmos 1847 Kosmos 1848
June	Kosmos 1849 Kosmos 1850 Kosmos 1851 Kosmos 1852, Kosmos 1853, Kosmos 1854, Kosmos 1855, Kosmos 1856, Kosmos 1857, Kosmos 1858, Kosmos 1859 Resurs-F1 No.105 Kosmos 1860 USA-26 Kosmos 1861
July	Kosmos 1862 Kosmos 1863 Kosmos 1864 Kosmos 1865 Kosmos 1866 Kosmos 1867 Kosmos 1868 Kosmos 1869 Soyuz TM-3 Kosmos 1870
August	Kosmos 1871 Progress 31 Fanhui Shi Weixing 10 Meteor-2 No.21 Kosmos 1872 Kiku No.5 Kosmos 1873
September	Kosmos 1874 Ekran No.29L Kosmos 1875, Kosmos 1876, Kosmos 1877, Kosmos 1878, Kosmos 1879, Kosmos 1880 Fanhui Shi Weixing I-01 Kosmos 1881 Kosmos 1882 Aussat A3, ECS-4 Kosmos 1883, Kosmos 1884, Kosmos 1885 Transit-O 27, Transit-O 29 Kosmos 1886 Progress 32 Kosmos 1887
October	Kosmos 1888 Kosmos 1889 Kosmos 1890 Kosmos 1891 Kosmos 1892 Kosmos 1893 USA-27 Kosmos 1894
November	Kosmos 1895 Kosmos 1896 Progress 33 TV-SAT 1 Kosmos 1897 USA-28
December	Kosmos 1898 Kosmos 1899 Gran' No.32L Kosmos 1900 Kosmos 1901 Kosmos 1902 Soyuz TM-4 Kosmos 1903 Kosmos 1904 Kosmos 1905 Kosmos 1906 Ekran-M No.13L Kosmos 1907
Launches are separated by dots ( •), payloads by commas ( , ), multiple names for the same satellite by slashes ( / ). Cubesats are smaller. Crewed flights are underlined. Launch failures are marked with the † sign. Payloads deployed from other spacecraft are (enclosed in parentheses).

Kosmos 1818

Contents

Description

Fragmentation

Related Research Articles

References