China’s first satellite dedicated to comprehensive monitoring of the atmospheric environment, named Daqi-1, also known as Atmospheric Environment Monitoring Satellite (AEMS) and developed by the Shanghai Academy of Spaceflight Technology (SAST) in Shanghai, is designed to operate in sun-synchronous orbit. Daqi-1 can monitor fine particle pollution like PM2.5, pollutant gases including nitrogen dioxide, sulfur dioxide and ozone, as well as carbon dioxide concentration.
It combines both passive and active sensing, which can realize comprehensive monitoring of the atmospheric environment in a better way, according to a chief designer with SAST. The detection accuracy of fine particles and carbon dioxide column concentration by Daqi-1 has reached the international advanced level, the chief designer said. The atmospheric detection lidar deployed on the satellite is also the world’s first that is capable of detecting both atmospheric aerosols and carbon dioxide.
Launch Overview
Window Open
18:09 UTC
Window Close
18:31 UTC
Lift Off
Apr 15, 2022 · 18:16 UTC
Launch Facility
Taiyuan Satellite Launch Center, People's Republic of China
Launch Pad
Launch Complex 9
Target Orbit
Sun-Synchronous Orbit
Payload Overview
Customer
China Aerospace Science and Technology Corporation
China’s first satellite dedicated to comprehensive monitoring of the atmospheric environment, named Daqi-1, also known as Atmospheric Environment Monitoring Satellite (AEMS) and developed by the Shanghai Academy of Spaceflight Technology (SAST) in Shanghai, is designed to operate in sun-synchronous orbit. Daqi-1 can monitor fine particle pollution like PM2.5, pollutant gases including nitrogen dioxide, sulfur dioxide and ozone, as well as carbon dioxide concentration.
It combines both passive and active sensing, which can realize comprehensive monitoring of the atmospheric environment in a better way, according to a chief designer with SAST. The detection accuracy of fine particles and carbon dioxide column concentration by Daqi-1 has reached the international advanced level, the chief designer said. The atmospheric detection lidar deployed on the satellite is also the world’s first that is capable of detecting both atmospheric aerosols and carbon dioxide.
Height
LEO Payload
Total Launches
Status
China Aerospace Science and Technology Corporation
Launch Complex 9
Launch Overview
Window Open
18:09 UTC
Window Close
18:31 UTC
Lift Off
Apr 15, 2022 · 18:16 UTC
Launch Facility
Taiyuan Satellite Launch Center, People's Republic of China
Launch Pad
Launch Complex 9
Target Orbit
Sun-Synchronous Orbit
Payload Overview
Customer
China Aerospace Science and Technology Corporation