EarthCARE launched with Dutch instrument for research into climate change

by | May 29, 2024 | Climate, Industry News

Europe’s new Earth Cloud, Aerosol and Radiation Explore (EarthCARE) satellite was successfully launched into space at the end of May. The scientific mission investigates the influence of clouds and aerosols on climate change. A number of Dutch companies, including SBIC technical partner Airbus, supplied hardware and KNMI researchers are eagerly awaiting the first data. The new mission is a joint venture between ESA and the Japan Aerospace Exploration Agency, JAXA.

View news item on the NSO website

EarthCARE satellite in space illustration
EarthCARE satellite visual (source: ESA)

Clouds and aerosols make an important contribution to the warming of our planet, scientists think. But hard evidence is lacking. “It is one of the largest uncertainties in current climate models,” says Thorsten Fehr, ESA’s head of atmospheric research. “And EarthCARE will reduce that uncertainty in the coming years.”

EarthCARE is the sixth mission in ESA’s scientific Earth Explorer programme. It is also the most complex Earth observation satellite that ESA has ever built. On board is the MSI multi-spectral camera developed by TNO and SSTL. This must work together with a laser instrument, a radar instrument and a radiation meter; a method never before used in space.

Clouds are a blanket

Why does science attribute clouds and aerosols to such a major role in global warming? Gerd-Jan van Zadelhoff, researcher at the KNMI, responds: “Clouds high in the atmosphere function like a kind of blanket: they retain heat radiation from the earth. The opposite applies to low clouds: they radiate sunlight back into space and cool the Earth. All the clouds in between can either warm or cool the Earth. That depends on how many aerosols they contain, the size of water droplets and more.”

EarthCARE will use its instruments to measure the interaction between clouds, aerosols and heat radiation. Van Zadelhoff continues: “For the first time we can establish a relationship between how much heat radiation reaches the Earth, which clouds and aerosols we see and how much heat radiation leaves the Earth.”

Earth Explorer missions infographic
Earth observation satellites (source: ESA)

Synergy between satellites

EarthCARE is not the only satellite tasked with unravelling the cloud mystery. In February, NASA launched the PACE satellite, for which the Netherlands supplied the SPEXone instrument. This satellite also examines aerosols. Yet the satellites are not competitors, says Bastiaan van Diedenhoven, senior researcher at SRON.

PACE measures averages of an entire column of particulate matter in the atmosphere. EarthCARE is able to measure the vertical distribution of particulate matter. And EarthCARE can clearly observe which clouds rain out and how snow and ice are formed, while PACE provides information about small particles in the clouds before they form rain. “Individually, the satellites can already do a lot,” says Van Diedenhoven. “But if you take the data from both together, you can do groundbreaking science and make many new discoveries.”

Dutch components

Dutch scientists have to wait until the end of 2024 before they can work with the first data from EarthCARE. For the Dutch business community, work on the mission has been finished for some time. Airbus developed and built the satellite’s solar panels (read more here) and Bradford Space part of the propulsion system.

Rob van Hassel from Airbus: “When you think of many satellites, you think of a box full of instruments with solar panels on either side. EarthCARE, which has been nicknamed the “White Dragon”, has the solar panels in a very special place: the back. You could say we gave the dragon a tail.” The panels are located at the back, because EarthCARE flies in a relatively low orbit around the earth, Van Hassel explains: “By placing the solar panels at the back, we make the smallest possible contribution to air resistance. Moreover, the solar panels form a nice countermass for the heavy laser instrument at the front.”

Bradford Space built six pressure transducers for EarthCARE’s propulsion system. They indicate how much fuel is still available for manoeuvres with the satellite. The parts originally come from Formula 1. Bradford made them suitable for space travel. The company has now built more than four hundred pressure transducers. The first flew on comet hunter Rosetta in 2004. Other examples are on the ESA missions JUICE and Euclid.

Remaining relevant

The launch of EarthCARE has been postponed several times in recent years. The development of the laser instrument, the COVID pandemic and the war in Ukraine, among other things, caused significant delays. According to ESA’s Thorsten Fehr, the fact that the mission finally got off the ground today is an absolute milestone and remains important for science.

EarthCARE satellite launch
EarthCARE satellite launched aboard a Falcon 9 rocket from the Vandenberg Space Force Base, CA, United States (source: ESA)

He comments: “The need for EarthCARE data has only increased. This is an extremely important and relevant mission for the global scientific community. It will teach us a lot about the impact we humans have on the climate and significantly improve predictions about global warming in the short and longer term.”

This is an edited version of the news release that appears on the NSO website.


NSO and Airbus Netherlands are technical partners of SBIC:

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