Fengyun | |
Country: | People's Republic of China |
Purpose: | Meteorology |
Status: | Active |
Firstflight: | 6 September 1988 |
Native Name A: | 风云卫星 |
Native Name R: | Fēngyún Wèixīng |
Fēngyún (FY,) are China's meteorological satellites. Launched since 1988 into polar Sun-synchronous and geosynchronous orbit, each three-axis stabilized Fengyun satellite is built by the Shanghai Academy of Spaceflight Technology (SAST) and operated by the China Meteorological Administration (CMA).[1] [2] To date, China has launched twenty-one Fengyun satellites in four classes (FY-1 through FY-4). Fengyun 1 and Fengyun 3 satellites are in polar, Sun-synchronous orbit and Low Earth orbit while Fengyun 2 and 4 are geosynchronous orbit.
On 11 January 2007, China destroyed one of these satellites (FY-1C, COSPAR 1999-025A) in a test of an anti-satellite missile.[3] [4] According to NASA, the intentional destruction of FY-1C created more than 3,000 high-velocity debris items, a larger amount of dangerous space debris than any other space mission in history.[5]
The four satellites of the Fengyun 1 (or FY-1) class were China's first meteorological satellites placed in polar, Sun-synchronous orbit.[6] In this orbit, FY-1 satellites orbited the Earth at both a low altitude (approximate 900 km above the Earth's surface), and at a high inclination between 98.8° and 99.2° traversing the North Pole every 14 minutes, giving FY-1-class satellites global meteorological coverage with a rapid revisit time and closer proximity to the clouds they image.[7] [8] FY-1A, launched in September 1988, lasted 39 days until it suffered attitude control problems. FY-1B, launched in September 1990 along with the first two QQW (Qi Qui Weixing) balloon satellites,[9] lasted until late 1992 when its attitude control system also failed. FY-1C, launched in May 1999 along with Shijian-5, also completed its two-year design life operating until January 2004. The last satellite of the class, FY-1D, was launched in May 2002 and operated continuously for nine years until in May 2011 operations were temporarily lost. Despite resuscitation, FY-1D failed on 1 April 2012.[10]
All Fengyun 1 satellites were launched from Taiyuan Satellite Launch Center (TSLC) in Shanxi Province on Long March 4A and 4B rockets and weighed 750 kg, 880 kg, 954 kg, and 954 kg respectively. Aboard each satellite were two multichannel visible and infrared scanning radiometers (MVISR) built by the Shanghai Institute of Technical Physics (SITP) bearing an optical scanner, image processor, radiant cooler, and controller for the radiant cooler.[11] [12] FY-1C and FY-1D satellites also carried on board a high-energy particle detector (HEPD) for study of the space environment, contributing to their increased mass. FY-1 satellites are powered by two deployable solar arrays and internal batteries.
See main article: 2007 Chinese anti-satellite missile test. On 11 January 2007, China conducted its first anti-satellite (ASAT) missile test, destroying FY-1C with a kinetic kill vehicle, identified by the United States Defense Intelligence Agency (DIA) as the SC-19,[13] a modified DF-21 ballistic missile with mounted kill vehicle.[14] The shootdown, and the subsequent creation of a record-setting amount of in-orbit debris, drew serious international criticism.[15] [16] [17] [18] [19]
Satellites of the Fengyun 2 class are based on the spin-stabilized Dong Fang Hong 2 platform and are China's first class of meteorological satellites in geostationary orbit.[20] Unlike meteorological satellites in polar orbit (like the FY-1 and FY-3 classes), FY-2 satellites in geostationary orbit remain in a fixed position relative to the Earth 35,000 km above its surface and maintain a constant watch over an assigned area.[21] [22] Unlike polar orbiting satellites which view the same area about twice a day, geostationary satellites can image a location as fast as once a minute and show long term meteorological trends - at the cost of resolution.
Built by the Shanghai Institute of Satellite Engineering and operated by the Chinese Meteorological Administration, FY-2 satellites are 4.5 m tall and are spin-stabilized rotating at 100 rotations per minute. FY-2-class satellites have been marketed for their openly available data whereby any user with a receiver could view FY-2 derived sensory data. Satellites of the Fengyun 2 class have a mass of 1,380 kilograms, use solar cells and batteries for power, and a FG-36 apogee motor jettisoned after attaining orbit.
On 2 April 1994, China attempted to launch the Fengyun 2 from Xichang Satellite Launch Center (XSLC) when, prior to its mating with the Long March 3, a fire caused an explosion destroying the satellite, killing a technician, and injuring 20 others. Officials of the Chinese space agency described the $75 million USD loss of the satellite as a "major setback" to the Chinese space program.[23] Despite this, China launched eight successive Fengyun 2 satellites without incident.
Chinese participation in the monitoring of auroras for scientific and space weather investigation was initiated with the launch of the Fengyun-3D satellite, which carries a wide-field auroral imager.
As of 2021, China has launched two Fengyun 4 class satellites.
Satellite | Launch | Orbit | Orbital apsis | Inclination | Period (min) | SCN | COSPAR | Launch site | Vehicle | Status | |
---|---|---|---|---|---|---|---|---|---|---|---|
Fenyun 1A | 6 September 1988 | Sun-synchronous | 880.0 km × 899.9 km | 99.2° | 102.6 | 19467 | TSLC | Long March 4A | |||
Fengyun 1B | 3 September 1990 | Sun-synchronous | 880.2 km × 902.5 km | 98.8° | 102.6 | 20788 | TSLC | Long March 4A | |||
Fengyun 2-01 | 4 April 1994 | Exploded before launch | XSLC | Long March 3 | Destroyed before launch | ||||||
Fengyun 2A | 10 June 1997 | Geostationary | 36,588.1 km × 37,451.4 km | 15.0° | 1499.1 | 24834 | XSLC | Long March 3 | |||
Fengyun 1C | 10 May 1999 | Sun-synchronous | 832.3 km × 851.7 km | 99.0° | 101.4 | 25730 | TSLC | Long March 4B | |||
Fengyun 2B | 25 June 2000 | Geostationary | 35,830.7 km × 35,848.3 km | 11.9° | 1438.7 | 26382 | XSLC | Long March 3 | |||
Fengyun 1D | 15 May 2002 | Sun-synchronous | 855.7 km × 878.8 km | 99.1° | 102.1 | 27431 | TSLC | Long March 4B | |||
Fengyun 2C | 19 October 2004 | Geostationary | 36,393.0 km × 36,443.3 km | 10.2° | 1468.1 | 28451 | XSLC | Long March 3A | |||
Fengyun 2D | 8 December 2006 | Geostationary | 36,330.7 km × 36,442.4 km | 8.3° | 1466.5 | 29640 | XSLC | Long March 3A | |||
Fengyun 3A | 27 May 2008 | Sun-synchronous | 830.0 km × 843.5 km | 98.5° | 101.4 | 32958 | TSLC | Long March 4C | |||
Fengyun 2E | 23 December 2008 | Geostationary | 35,785.9 km × 35,805.9 km | 6.1° | 1436.1 | 33463 | XSLC | Long March 3A | |||
Fengyun 3B | 4 November 2010 | Sun-synchronous | 835.3 km × 868.6 km | 99.1° | 101.8 | 37214 | TSLC | Long March 4C | |||
Fengyun 2F | 13 January 2012 | Geostationary | 35,794.2 km × 35,799.5 km | 4.0° | 1436.2 | 38049 | XSLC | Long March 3A | |||
Fengyun 3C | 23 September 2013 | Sun-synchronous | 837.7 km × 854.8 km | 98.5° | 101.6 | 39260 | TSLC | Long March 4C | |||
Fengyun 2G | 31 December 2014 | Geostationary | 35,782.4 km × 35,798.7 km | 2.1° | 1435.9 | 40367 | XSLC | Long March 3A | |||
Fengyun 4A | 10 December 2016 | Geostationary | 35,784.0 km × 35,802.9 km | 0.2° | 1436.2 | 41882 | XSLC | Long March 3B | |||
Fengyun 3D | 14 November 2017 | Sun-synchronous | 833.4 km × 836.9 km | 98.8° | 101.4 | 43010 | TSLC | Long March 4C | |||
Fengyun 2H | 5 June 2018 | Geostationary | 35,776.6 km × 35,814.1 km | 1.3° | 1436.0 | 43491 | XSLC | Long March 3A | |||
Fengyun 4B | 2 June 2021 | Geostationary | 35,786.6 km × 35,802.2 km | 0.2° | 1436.1 | 48808 | XSLC | Long March 3B | |||
Fengyun 3E | 4 July 2021 | Sun-synchronous | 831.3 km × 835.4 km | 98.7° | 101.4 | 49008 | JSLC | Long March 4C | |||
Fengyun 3G | 16 April 2023 | Low Earth | 410.0 km × 416.0km | 50.0° | 92.7 | 56232 | JSLC | Long March 4B | |||
Fengyun 3F | 3 August 2023 | Sun-synchronous | 832.9 km × 834.1km | 98.8° | 101.4 | 57490 | JSLC | Long March 4C | |||
Sources: USSPACECOM, NASA, WMO, CelesTrak |