Abstract
We revisit dust placed near the Earth–Sun L1 Lagrange point as a possible climate-change mitigation measure. Our calculations include variations in grain properties and orbit solutions with lunar and planetary perturbations. To achieve sunlight attenuation of 1.8%, equivalent to about 6 days per year of an obscured Sun, the mass of dust in the scenarios we consider must exceed 1010 kg. The more promising approaches include using high-porosity, fluffy grains to increase the extinction efficiency per unit mass, and launching this material in directed jets from a platform orbiting at L1. A simpler approach is to ballistically eject dust grains from the Moon’s surface on a free trajectory toward L1, providing sun shade for several days or more. Advantages compared to an Earth launch include a ready reservoir of dust on the lunar surface and less kinetic energy required to achieve a sun-shielding orbit.
Funder
Office of Undergraduate Studies, University of Utah
Publisher
Public Library of Science (PLoS)
Reference37 articles.
1. Tipping elements in the Earth’s climate system;TM Lenton;Proceedings of the National Academy of Sciences,2008
2. Global warming of 1.5°C: Summary for policy makers;V Masson-Delmotte;IPCC—The Intergovernmental Panel on Climate Change,2018
3. Climate tipping points—too risky to bet against;T Lenton;Nature,2019
4. The Science of Geoengineering;K Caldeira;Annual Review of Earth and Planetary Sciences,2013
5. Geoengineering Earth’s radiation balance to mitigate CO2-induced climate change;B Govindasamy;Geophysical Research Letters,2000
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