In order to eliminate potential risk from the lack of scientific understanding and resolve the current inability to assess how a rapidly growing space industry will affect Earth’s atmosphere, a well-defined research effort is recommended. As demonstrated in the white paper “Impacts of Spaceflight on the Global Atmosphere: Current Understanding, Knowledge Gaps, NASA’s Role, and Roadmap", we must improve our ability to model and observe rocket engine combustion, far field rocket plume evolution, impacts on the upper atmosphere, global launch impacts, reentry gas and aerosol production, far field reentry plume evolution, and global reentry impacts. The highly successful Atmospheric Chemistry of Combustion Emissions Near the Tropopause (ACCENT) program serves as a model for the proposed effort. ACCENT was a multiagency research program that included observation and modeling of rocket plumes and played a critical role to remove the threat of regulatory action against the Space Shuttle’s solid rocket motors. A similar effort today would be a combination of remote, in situ, and laboratory measurements that feed into model development and assessment of future launch and reentry emissions.
Impact of Spaceflight on Earth’s Atmosphere: Climate, Ozone, and the Upper Atmosphere
2024
36 pages
Report
No indication
English
Research on the Earth'S Upper Atmosphere
NTIS | 1970
|Engineering Index Backfile | 1949
|Long Term Observations of Earth's Upper Atmosphere
NTRS | 2015
|Engineering Index Backfile | 1949
|Long Term Observations of Earth's Upper Atmosphere
NTIS | 2015
|