Schubert, Peter J.Anderson, Richard J., IIISomera, AlexProctor, PatrickChin, Yung WeiBowyer, JonathanMcIntyre, NathanJackson, Tyler2019-07-122019-07-122018-09Schubert, P. J., Anderson, R. J., Somera, A. M., Proctor, P., Chin, Y. W., Bowyer, J., … Jackson, T. J. (2018). Lunar-sourced GEO Powersats: An Integrated ISRU System. In 2018 AIAA SPACE and Astronautics Forum and Exposition. https://doi.org/10.2514/6.2018-5366https://hdl.handle.net/1805/19877Solar power satellites (powersats) can be built almost entirely from lunar resources. When C-class asteroids are also included as ore bodies a complete powersat can be built through insitu resource utilization (ISRU) given appropriate processing and transportation technology.This article provides an in-depth overview of the technical feasibility and economic viabilityof lunar construction and operations for powersat component construction and delivery togeostationary earth orbit (GEO). Techno-economic analysis suggests a return on investmentin seven years assuming a three percent discount rate. Electrical power collected in GEO andbeamed to terrestrial receivers by the powersats can be sold as baseload power in the wholesale electricity market to generate revenue. This work presents a complete concept of operationsfrom initial rocket launches to regolith harvesting through transport to GEO. Lunarinfrastructure can be constructed of modules to optimize size and weight for launch costs.Future growth can be derived from using ISRU to build additional processing bases. A scale-up in this manner can provide 22% of the world’s energy needs by the end of a 20-year period.This work builds upon previous studies and completes the architectural description ofpredominantly lunar-sourced GEO powersats.enPublisher Policysolar power satellitesinsitu resource utilizationgeostationary earth orbitArticle