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A LEO-Based Solar-Shade System to Mitigate Global Warming

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arxiv 1504.05148 v1 pith:J3GY4OT3 submitted 2015-04-20 physics.gen-ph physics.space-ph

A LEO-Based Solar-Shade System to Mitigate Global Warming

classification physics.gen-ph physics.space-ph
keywords systembeenglobalproposedregionssolar-shadetemperaturedevelopment
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The development of a Low-Earth-Orbit (LEO) based solar-shade system, as part of a technically- and financially-viable multipurpose system to provide long-term solutions to global warming and the energy crisis is discussed. The proposed solar-shade and power system would be enabled by the development of a previously-proposed less-expensive, environment-friendly, space-elevator system to lift mass into space. The solar shades, even during their early deployment and growth in LEO, would provide benefits such as reduction of space-debris and depletion of the Van Allen radiation belts.The Terrestrial temperature profile has been approximated for each latitudinal zone with a one-dimensional model. A shade ring at an altitude of 2000-4000 km, consisting of thin-film mega panels totaling up to 4% of the earths surface area (to block ~1% of insolation), is proposed. The effects of such near-polar rings on the global temperature pattern has been examined using the simple model. Specific emphasis has been laid on this effect in the Polar Regions. One such proposed ring could reduce the peak summer temperature of the Polar Regions (80-90 degree latitude) by almost 3K. The tilting of the solar-shades, to reduce their cooling effect at the poles and to increase it in the near-polar regions, is recommended.

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