16 October 2017Launched last week, Europe’s Sentinel-5P satellite – the first Copernicus mission dedicated to monitoring the air we breathe – is in excellent health.
The 820 kg satellite was lofted into orbit from the Plesetsk Cosmodrome in northern Russia last Friday on a Rockot.
The satellite will use its state-of-the-art Tropomi instrument to monitor our atmosphere, mapping a multitude of gases that affect the air we breathe, our climate and human health.
After separating from the upper stage at an orbital speed of around 27 000 km/h, Sentinel opened its three solar panels and began communicating with Earth.
The first signal was received 93 min after launch as it passed over the Kiruna station in northern Sweden.
“Sentinel-5P is in excellent health and we were a little ahead of schedule in the timeline for the first three days,” says spacecraft operations manager Daniel Mesples.
“That meant we could reduce our 24 hours-a-day schedule a little earlier than planned and declare that the initial phase was complete by Saturday evening.
“As of today, we’re back to working daytime hours. Everything is going very well.”
The good news means the satellite is ready for the next crucial phase: commissioning the Tropomi atmosphere sensor over the next six months.
It is the first Copernicus mission dedicated to monitoring our atmosphere. It follows a fleet of five other Sentinels already in orbit and delivering a wealth of information about our planet.
The Sentinels make up the core of the space component of the EU’s Copernicus environmental monitoring network.
An EU flagship space initiative, Copernicus provides timely operational information on the world’s land surfaces, oceans and atmosphere to support environmental and security policymaking, and meet the needs of citizens and service providers.
“The satellite completed its initial critical orbital activities in just about 33 hours, a record, and this time there were no surprises,” says Paolo Ferri, head of mission operations at ESA.
“This is a testament to the quality of the satellite builders and the expertise of the mission control team, mixed with the necessary bit of luck.
“Given the complexity of spaceflight and the factors that can’t be fully predicted, we can’t always count on this, but we are happy when it does happen.”