.jpg) GOES-T in theAstrotech Space Operations facility in Titusville, Florida in January 2022 | |||||||||||||||
| Mission type | Weather andMeteorology | ||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Operator | NOAA / NASA | ||||||||||||||
| COSPAR ID | 2022-021A[1] | ||||||||||||||
| SATCATno. | 51850 | ||||||||||||||
| Mission duration | 15 years (planned) 3 years, 1 month, 7 days (elapsed) | ||||||||||||||
| Spacecraft properties | |||||||||||||||
| Spacecraft | GOES | ||||||||||||||
| Spacecraft type | GOES-R Series | ||||||||||||||
| Bus | LM-A2100A | ||||||||||||||
| Manufacturer | Lockheed Martin | ||||||||||||||
| Launch mass | 5,192 kg (11,446 lb) | ||||||||||||||
| Dry mass | 2,857 kg (6,299 lb) | ||||||||||||||
| Dimensions | 6.1 × 5.6 × 3.9 m (20 × 18 × 13 ft) | ||||||||||||||
| Power | 4kW | ||||||||||||||
| Start of mission | |||||||||||||||
| Launch date | 1 March 2022, 21:38UTC | ||||||||||||||
| Rocket | Atlas V 541 | ||||||||||||||
| Launch site | Cape Canaveral,SLC-41 | ||||||||||||||
| Contractor | United Launch Alliance | ||||||||||||||
| Entered service | 3 January 2023 | ||||||||||||||
| Orbital parameters | |||||||||||||||
| Reference system | Geocentric orbit | ||||||||||||||
| Regime | Geostationary orbit | ||||||||||||||
| Longitude | 136.9° west | ||||||||||||||
| Semi-major axis | 42,164.0 km (26,199.5 mi) | ||||||||||||||
| Eccentricity | 0.0001730 | ||||||||||||||
| Perigee altitude | 35,957 km (22,343 mi) | ||||||||||||||
| Apogee altitude | 35,972 km (22,352 mi) | ||||||||||||||
| Inclination | 0.0558° | ||||||||||||||
| Period | 24 hours | ||||||||||||||
| Epoch | June 2, 2022[2][3] | ||||||||||||||
| |||||||||||||||
 GOES-T mission insignia | |||||||||||||||
GOES-18 (designated pre-launch asGOES-T) is the third of the "GOES-R Series", the current generation of weather satellites operated by theNational Oceanic and Atmospheric Administration (NOAA). The current and next satellites of the Series (GOES-16,GOES-17, GOES-18, andGOES-19) will extend the availability of theGeostationary Operational Environmental Satellite (GOES) satellite system until 2037. The satellite is built byLockheed Martin inLittleton, Colorado. It is based on theA2100Asatellite bus and will have an expected useful life of 15 years (10 operational after five years in orbit replacement).[4]
The GOES-R Series also continues the legacy Geostationary SAR (GEOSAR) function of theSARSAT system onboard NOAA's GOES satellites which has contributed to the rescue of thousands of individuals in distress. The GOES-R Series SARSAT transponder operates with a lower uplink power than the previous system, enabling GOES-R Series satellites to detect weaker beacon signals.
In May 2018, NOAA announced that the recently launched GOES-17 satellite was suffering from a severemalfunction in its instrument cooling system which resulted in degraded performance of itsinfrared sensors. The cause of the problem was determined to be with theloop heat pipe (LHP), which transports heat from theAdvanced Baseline Imager (ABI) to a radiator for rejection into space. Since the LHP design was shared among all four GOES-R Series satellites, a redesign was required to prevent the anomaly from happening again on GOES-T and GOES-U. Lockheed Martin had already completed assembly of GOES-T and had to remove the ABI instrument in October 2018 and ship it to its manufacturer,Harris Corporation, to be rebuilt.[5][nb 1]
GOES-T was launched on March 1, 2022 fromCape Canaveral Space Force Station (CCSFS),Florida,United States.[6] Because of the repairs to correct the loop heat pipe problem, the launch had slipped from its originally scheduled date of February 16, 2022.[7]
GOES-T was renamedGOES-18 on March 14, 2022 after reaching geostationary orbit.[8]
GOES-18 will undergo a "split" post-launch testing (PLT) phase that will get GOES-18 into position near the current GOES-West location in August 2022, so its Advanced Baseline Imager (ABI) data will be available for the "warm" period that degrades some GOES-17 imagery during the height of hurricane season.[9]
The satellite was launched to the regular 89.5 degrees west checkout location and will undergo part one of PLT from this location. GOES-18 will then drift to 136.8 west and perform the remainder of PLT at that location near GOES-West. The 0.4 degree offset from GOES-17 will allow X-band RDL downlink from both GOES-17 and GOES-18. The 0.2 degree offset from 137.0W meet ground system product generation requirements. Both GOES-17 and GOES-18 images will be remapped to 137.0W.[9]
The transition plan allows for early operational use of GOES-18 ABI data after Beta maturity is achieved and incorporates radio frequency conflict mitigation between GOES-17 and GOES-18 and telemetry and command uplinks and downlinks. Users will not need to repoint their antennas. GOES-18 ABI data will be available via a Cloud interface and interleaving with GOES-17 non-ABI product data.[9]
After its operational transition, GOES-18 will be nudged over to the GOES-West position at 137.2W and GOES-17 will drift to 105W and placed in on-orbit storage. Assuming a normal launch and checkout, GOES-18 will transition to become the operational GOES-West satellite in early 2023.[9]
NOAA announced plans to move the geostationary weather satellite into an operational role "as soon as possible" by ensuring GOES-T systems perform as expected before moving it into an operational role.[10]
The ABI data of GOES-T is scheduled to be interleaved in GOES-17 data from August 1 to September 6 and October 15 to November 11, 2022, also the ABI warm periods of GOES-17.[9] GOES-T became operational as GOES-West on January 4, 2023 joining GOES-16 (operating as GOES-East), while GOES-17 was moved to an intermediate position between the two to serve as backup.[11]
The GOES-T launch was dedicated to Mark Timm, with the following message inscribed on the rocket fairing: "In memory of our colleague and friend - Mark Timm - The ULA Team"
On May 11, 2022, NOAA shared the first images of the Western Hemisphere from its GOES-18 satellite. The satellite's Advanced Baseline Imager (ABI) instrument captured views of Earth. The ABI views Earth with sixteen different channels, each measuring energy at different wavelengths along the electromagnetic spectrum to obtain information about Earth's atmosphere, land, and ocean.
Data from multiple ABI channels can be combined to create imagery that approximates what the human eye would see from space. Combining data from different channels in different ways also allows meteorologists to highlight features of interest.
This article incorporates text from this source, which is in thepublic domain. This article incorporates text from this source, which is in thepublic domain. This article incorporates text from this source, which is in thepublic domain.
| SMS (predecessor) |  | |
|---|---|---|
| SMS derived | ||
| 1st generation | ||
| 2nd generation | ||
| 3rd generation | ||
| 4th generation | ||
