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Aqua (satellite)

May 13, 2023

Aqua (EOS PM-1) is a NASA scientific research satellite in orbit around the Earth, studying the precipitation, evaporation, and cycling of water. It is the second major component of the Earth Observing System (EOS) preceded by Terra (launched 1999) and followed by Aura (launched 2004).

Aqua
Aqua (EOS PM-1)
Mission typeEarth observation
OperatorNASA
COSPAR ID2002-022A
SATCAT no.27424
Websiteaqua.nasa.gov
Mission duration6 years (planned)
Elapsed: 21 years, 6 days
Spacecraft properties
BusT330 (AB-1200)
ManufacturerTRW
Launch mass3,117 kilograms (6,872 lb)
Dimensions4.81 m × 16.7 m × 8.04 m (15.8 ft × 54.8 ft × 26.4 ft)
Power4.444 kilowatts
Start of mission
Launch dateMay 4, 2002, 09:54:58 (2002-05-04UTC09:54:58Z) UTC
RocketDelta II 7920-10L
Launch siteVandenberg SLC-2W
ContractorBoeing
Orbital parameters
Reference systemGeocentric
RegimeLow Earth
Semi-major axis7,080.6 kilometers (4,399.7 mi)
Eccentricity0.0000979
Perigee altitude702 kilometers (436 mi)
Apogee altitude703 kilometers (437 mi)
Inclination98.1987°
Period99 minutes
RAAN95.2063°
Argument of perigee120.4799°
Mean anomaly351.4268°
Mean motion14.57116559
Epoch02 June 2016, 10:25:37 UTC
Revolution no.74897

Logotype of the mission.  

The name "Aqua" comes from the Latin word for water. The satellite was launched from Vandenberg Air Force Base on May 4, 2002, aboard a Delta II rocket. Aqua operated in a sun-synchronous orbit as the third in the satellite formation called the "A Train" with several other satellites (OCO-2, the Japanese GCOM W1, PARASOL, CALIPSO, Cloud Sat, and Aura) for most of its first 20 years; but in January 2022 Aqua left the A-Train (as Cloud Sat, CALIPSO and PARASOL had already done) when, due to its fuel limitations, it transitioned to a free-drift mode, wherein its equatorial crossing time is slowly drifting to later times, from its tightly controlled orbit.[1]

Mission

Aqua is one of NASA's missions for Earth science operating in the A-Train constellation. It has demonstrated a very high level of precision in making the primary long-term measurements of the mission. These highly calibrated climate quality measurements of radiance, reflectance, and backscatter have been used to cross-calibrate past and present sensors launched by NASA, as well as a variety of sensors launched from other agencies and the international community. Thousands of scientists and operational users from around the world have made use of the Aqua data to address NASA's 6 interdisciplinary Earth science focus areas: Atmospheric Composition, Weather, Carbon Cycle and Ecosystems, Water and Energy Cycle, Climate Variability and Change, and Earth Surface and Interior.

Aqua has experienced some minor, non-mission ending anomalies.

Because of a 2007 anomaly with the Solid State Recorder (SSR) it can only hold two orbits worth of data. A series of solar array and array regulator electronics anomalies starting in 2010 has led to the loss of 23 strings of solar cells out of a total of 132 strings.[2] A 2005 short circuit within a battery cell led to a partial loss of cell capacity. In 2009, a solar panel thermistor failed and an error in the Solar Array offset was detected. The offset issue has been corrected periodically since then. On September 8, 2007, the Dual Thruster Module (DTM-2) Heater experienced an anomaly.[3] On August 16, 2020, The Formatter Multiplexer Unit (FMU) experienced an anomaly, corrupting some data in the SSR and stopping all data streams until it was recovered on September 2, 2020.[4]

The current end of mission plan is to let Aqua's orbit decay naturally at least until June 2024 and continue data collection into 2026 or even 2027, dependent on such items as budget, fuel, hardware, power, and end-of mission requirements.[2] Aqua's life could be extended with a possible re-fueling mission. A worst-case scenario would result in a re-entry by 2046.[5]

Instruments

Aqua carries six instruments for studies of water on the Earth's surface and in the atmosphere, of which four are still operating:

  • Advanced Microwave Scanning Radiometer-EOS (AMSR-E) — measures cloud properties, sea surface temperature, near-surface wind speed, radiative energy flux, surface water, ice and snow. Furnished by the National Space Development Agency of Japan. The AMSR-E instrument had over 480 pounds of spinning mass, and the lubricant in the bearing assembly gradually deteriorated over the course of the mission. By 2007, there was a noticeable increase in motor current. This led to the development of new contingency procedures in case of high current or torque, which were put in place in 2011. In October 2011, the instrument began to cause yaw vibrations in the spacecraft that exceeded torque limits and on October 4, 2011, was automatically slowed to 4 rpm from the normal 40 rpm and then, because it could not maintain 4 rpm, was slowed to a stop.[6] A recovery procedure was developed and tested through 2012, culminating with a December 4, 2012 successful acceleration to 2.0767 rpm to allow for cross-calibration with the AMSR-2 instrument launched in 2012 aboard the GCOM-W1 satellite.[7] On December 4, 2015, AMSR-E was slowed to a stop and then on March 3, 2016, it was turned off.[8]
  • Moderate Resolution Imaging Spectroradiometer (MODIS) — also measures cloud properties and radiative energy flux, also aerosol properties; land cover and land use change, fires and volcanoes. An identical MODIS instrument is also aboard Terra. As of 2017, some degradation of channels in the MODIS short wave visible bands has been observed by the Ocean Biology Processing Group (OBPG).[9]
  • Advanced Microwave Sounding Unit (AMSU-A) — measures atmospheric temperature and humidity. Since launch, AMSU has lost 5 of 15 channels.[10][11] Power to the AMSU-A2 microwave instrument was lost at 19:47 UT September 24, 2016. This caused the loss of Channels 1 and 2. All recovery attempts were unsuccessful and no further recovery attempts are planned.[3]
  • Atmospheric Infrared Sounder (AIRS) — measures atmospheric temperature and humidity, land and sea surface temperatures. Cooler A telemetry became frozen on March 24, 2014, but this had no impact on science gathering.[12] On September 25, 2016, Cooler-A experienced a shut down anomaly. Anomaly recovery occurred two days later and also cleared a condition that had disabled Cooler-A telemetry since the 2014 Cooler-A anomaly.[11]
  • Humidity Sounder for Brazil (HSB) — VHF band equipment measuring atmospheric humidity. Furnished by Instituto Nacional de Pesquisas Espaciais of Brazil. The HSB instrument has been in survival mode, and thus non-operational, since February 5, 2003, when the scan mirror motor failed.[12]
  • Clouds and the Earth's Radiant Energy System (CERES) — Flying Modules 3 and 4, measure broadband radiative energy flux. CERES' shortwave channel on module 4 failed on March 30, 2005, but its two other channels remain operational.[12]

The Aqua spacecraft has a mass of about 2,850 kilograms (6,280 lb), plus propellant of about 230 kilograms (510 lb) at launch. Stowed for launch, the satellite fit in a volume of 2.68 m x 2.49 m x 6.49 m. Deployed, Aqua is 4.81 m x 16.70 m x 8.04 m.

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    Aqua instruments

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    Aqua satellite

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    Image of Arctic shrinkage from Aqua observations

See also

References

  1. ^ Smith, Joseph M. (4 May 2022). "Aqua Turns 20". Retrieved 5 May 2022.
  2. ^ a b Parkinson, Claire. "Aqua Status, Ac+vi+es in the Past 12 Months, and Future Plans" (PDF). Retrieved 18 April 2022.
  3. ^ a b Guit, Bill (13 June 2017). "EOS Aqua Mission Status at the Earth Science Constellation Mission Operations Working Group (MOWG) Meeting at GSFC" (PDF). Retrieved 14 December 2017.
  4. ^ "Case PM_MYD_20229_NRT". Retrieved 24 August 2020.
  5. ^ Guit, Bill. "EOS Aqua Mission Status at the Earth Science Constellation (ESC) Mission Operations Working Group (MOWG) Meeting In Toulouse, France" (PDF). Retrieved 26 May 2021.
  6. ^ Spencer, Roy W. "AMSR-E Ends 9+ Years of Global Observations". drroyspencer.com. Retrieved 16 October 2017.
  7. ^ Guit, Bill. (PDF). Archived from the original (PDF) on 27 December 2016. Retrieved 16 October 2017.
  8. ^ MIURA, Satoko Horiyama. (PDF). Archived from the original (PDF) on 27 December 2016. Retrieved 16 October 2017.
  9. ^ Vandemark, Douglas. "NASA Earth Science Senior Review Subcommittee Report — 2017" (PDF). Retrieved 14 December 2017.
  10. ^ Liu, Guosheng (22 June 2015). NASA Earth Science Senior Review 2015 (PDF) (Report). (PDF) from the original on 13 April 2022. Retrieved 17 October 2017.
  11. ^ a b "Aqua Summary August 31, 2017" (PDF). Retrieved 14 December 2017.
  12. ^ a b c Parkinson, Claire. "2015 Aqua Update" (PDF). Retrieved 16 October 2017.

External links

 
Wikimedia Commons has media related to Aqua (satellite).
  • NASA Aqua site
  • by
  • Mission Control Tunes Up Aqua's Orbit, August 20, 2009

May 13, 2023
aqua, satellite, aqua, nasa, scientific, research, satellite, orbit, around, earth, studying, precipitation, evaporation, cycling, water, second, major, component, earth, observing, system, preceded, terra, launched, 1999, followed, aura, launched, 2004, aquaa. Aqua EOS PM 1 is a NASA scientific research satellite in orbit around the Earth studying the precipitation evaporation and cycling of water It is the second major component of the Earth Observing System EOS preceded by Terra launched 1999 and followed by Aura launched 2004 AquaAqua EOS PM 1 Mission typeEarth observationOperatorNASACOSPAR ID2002 022ASATCAT no 27424Websiteaqua nasa govMission duration6 years planned Elapsed 21 years 6 daysSpacecraft propertiesBusT330 AB 1200 ManufacturerTRWLaunch mass3 117 kilograms 6 872 lb Dimensions4 81 m 16 7 m 8 04 m 15 8 ft 54 8 ft 26 4 ft Power4 444 kilowattsStart of missionLaunch dateMay 4 2002 09 54 58 2002 05 04UTC09 54 58Z UTCRocketDelta II 7920 10LLaunch siteVandenberg SLC 2WContractorBoeingOrbital parametersReference systemGeocentricRegimeLow EarthSemi major axis7 080 6 kilometers 4 399 7 mi Eccentricity0 0000979Perigee altitude702 kilometers 436 mi Apogee altitude703 kilometers 437 mi Inclination98 1987 Period99 minutesRAAN95 2063 Argument of perigee120 4799 Mean anomaly351 4268 Mean motion14 57116559Epoch02 June 2016 10 25 37 UTCRevolution no 74897Logotype of the mission The name Aqua comes from the Latin word for water The satellite was launched from Vandenberg Air Force Base on May 4 2002 aboard a Delta II rocket Aqua operated in a sun synchronous orbit as the third in the satellite formation called the A Train with several other satellites OCO 2 the Japanese GCOM W1 PARASOL CALIPSO Cloud Sat and Aura for most of its first 20 years but in January 2022 Aqua left the A Train as Cloud Sat CALIPSO and PARASOL had already done when due to its fuel limitations it transitioned to a free drift mode wherein its equatorial crossing time is slowly drifting to later times from its tightly controlled orbit 1 Contents 1 Mission 2 Instruments 3 See also 4 References 5 External linksMission EditAqua is one of NASA s missions for Earth science operating in the A Train constellation It has demonstrated a very high level of precision in making the primary long term measurements of the mission These highly calibrated climate quality measurements of radiance reflectance and backscatter have been used to cross calibrate past and present sensors launched by NASA as well as a variety of sensors launched from other agencies and the international community Thousands of scientists and operational users from around the world have made use of the Aqua data to address NASA s 6 interdisciplinary Earth science focus areas Atmospheric Composition Weather Carbon Cycle and Ecosystems Water and Energy Cycle Climate Variability and Change and Earth Surface and Interior Aqua has experienced some minor non mission ending anomalies Because of a 2007 anomaly with the Solid State Recorder SSR it can only hold two orbits worth of data A series of solar array and array regulator electronics anomalies starting in 2010 has led to the loss of 23 strings of solar cells out of a total of 132 strings 2 A 2005 short circuit within a battery cell led to a partial loss of cell capacity In 2009 a solar panel thermistor failed and an error in the Solar Array offset was detected The offset issue has been corrected periodically since then On September 8 2007 the Dual Thruster Module DTM 2 Heater experienced an anomaly 3 On August 16 2020 The Formatter Multiplexer Unit FMU experienced an anomaly corrupting some data in the SSR and stopping all data streams until it was recovered on September 2 2020 4 The current end of mission plan is to let Aqua s orbit decay naturally at least until June 2024 and continue data collection into 2026 or even 2027 dependent on such items as budget fuel hardware power and end of mission requirements 2 Aqua s life could be extended with a possible re fueling mission A worst case scenario would result in a re entry by 2046 5 Instruments EditAqua carries six instruments for studies of water on the Earth s surface and in the atmosphere of which four are still operating Advanced Microwave Scanning Radiometer EOS AMSR E measures cloud properties sea surface temperature near surface wind speed radiative energy flux surface water ice and snow Furnished by the National Space Development Agency of Japan The AMSR E instrument had over 480 pounds of spinning mass and the lubricant in the bearing assembly gradually deteriorated over the course of the mission By 2007 there was a noticeable increase in motor current This led to the development of new contingency procedures in case of high current or torque which were put in place in 2011 In October 2011 the instrument began to cause yaw vibrations in the spacecraft that exceeded torque limits and on October 4 2011 was automatically slowed to 4 rpm from the normal 40 rpm and then because it could not maintain 4 rpm was slowed to a stop 6 A recovery procedure was developed and tested through 2012 culminating with a December 4 2012 successful acceleration to 2 0767 rpm to allow for cross calibration with the AMSR 2 instrument launched in 2012 aboard the GCOM W1 satellite 7 On December 4 2015 AMSR E was slowed to a stop and then on March 3 2016 it was turned off 8 Moderate Resolution Imaging Spectroradiometer MODIS also measures cloud properties and radiative energy flux also aerosol properties land cover and land use change fires and volcanoes An identical MODIS instrument is also aboard Terra As of 2017 some degradation of channels in the MODIS short wave visible bands has been observed by the Ocean Biology Processing Group OBPG 9 Advanced Microwave Sounding Unit AMSU A measures atmospheric temperature and humidity Since launch AMSU has lost 5 of 15 channels 10 11 Power to the AMSU A2 microwave instrument was lost at 19 47 UT September 24 2016 This caused the loss of Channels 1 and 2 All recovery attempts were unsuccessful and no further recovery attempts are planned 3 Atmospheric Infrared Sounder AIRS measures atmospheric temperature and humidity land and sea surface temperatures Cooler A telemetry became frozen on March 24 2014 but this had no impact on science gathering 12 On September 25 2016 Cooler A experienced a shut down anomaly Anomaly recovery occurred two days later and also cleared a condition that had disabled Cooler A telemetry since the 2014 Cooler A anomaly 11 Humidity Sounder for Brazil HSB VHF band equipment measuring atmospheric humidity Furnished by Instituto Nacional de Pesquisas Espaciais of Brazil The HSB instrument has been in survival mode and thus non operational since February 5 2003 when the scan mirror motor failed 12 Clouds and the Earth s Radiant Energy System CERES Flying Modules 3 and 4 measure broadband radiative energy flux CERES shortwave channel on module 4 failed on March 30 2005 but its two other channels remain operational 12 The Aqua spacecraft has a mass of about 2 850 kilograms 6 280 lb plus propellant of about 230 kilograms 510 lb at launch Stowed for launch the satellite fit in a volume of 2 68 m x 2 49 m x 6 49 m Deployed Aqua is 4 81 m x 16 70 m x 8 04 m Aqua instruments Aqua satellite Image of Arctic shrinkage from Aqua observationsSee also Edit Spaceflight portalTerra AuraReferences Edit Smith Joseph M 4 May 2022 Aqua Turns 20 Retrieved 5 May 2022 a b Parkinson Claire Aqua Status Ac vi es in the Past 12 Months and Future Plans PDF Retrieved 18 April 2022 a b Guit Bill 13 June 2017 EOS Aqua Mission Status at the Earth Science Constellation Mission Operations Working Group MOWG Meeting at GSFC PDF Retrieved 14 December 2017 Case PM MYD 20229 NRT Retrieved 24 August 2020 Guit Bill EOS Aqua Mission Status at the Earth Science Constellation ESC Mission Operations Working Group MOWG Meeting In Toulouse France PDF Retrieved 26 May 2021 Spencer Roy W AMSR E Ends 9 Years of Global Observations drroyspencer com Retrieved 16 October 2017 Guit Bill AMSR E Recovery PDF Archived from the original PDF on 27 December 2016 Retrieved 16 October 2017 MIURA Satoko Horiyama AMSR E Spun Down on Dec 2015 PDF Archived from the original PDF on 27 December 2016 Retrieved 16 October 2017 Vandemark Douglas NASA Earth Science Senior Review Subcommittee Report 2017 PDF Retrieved 14 December 2017 Liu Guosheng 22 June 2015 NASA Earth Science Senior Review 2015 PDF Report Archived PDF from the original on 13 April 2022 Retrieved 17 October 2017 a b Aqua Summary August 31 2017 PDF Retrieved 14 December 2017 a b c Parkinson Claire 2015 Aqua Update PDF Retrieved 16 October 2017 External links Edit Wikimedia Commons has media related to Aqua satellite NASA Aqua site Aqua Mission Profile by NASA s Solar System Exploration Mission Control Tunes Up Aqua s Orbit August 20 2009 Retrieved from https en wikipedia org w index php title Aqua satellite amp oldid 1142033206, wikipedia, wiki, book, books, library,

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