A reference architecture for orbiting solar reflectors to enhance terrestrial solar power plant output

Andrea Viale; Onur Çelik; Temitayo Oderinwale; Litesh Sulbhewar; Colin R. McInnes

doi:10.1016/j.asr.2023.05.037

A reference architecture for orbiting solar reflectors to enhance terrestrial solar power plant output

Andrea Viale, Onur Çelik^*, Temitayo Oderinwale, Litesh Sulbhewar, Colin R. McInnes

^*Corresponding author for this work

Research output: Contribution to journal › Article › Scientific › peer-review

8 Citations (Scopus)

Abstract

Orbiting reflectors offer the possibility of illuminating large terrestrial solar power plants to enhance their output, particularly at dawn and dusk when their output is low but energy spot prices can be high. While the concept of orbiting solar reflectors has been considered in various forms in the past, there is now a timely overlap of rapidly growing global demand for clean energy services, falling launch costs through reusability and the emergence of in-orbit manufacturing technologies to enable the fabrication of large, ultra-lightweight space structures. This paper provides an end-to-end analysis of a possible minimum initial architecture to deliver such global clean energy services. The analysis will cover orbit selection, attitude control requirements, structural analysis and economical viability, followed by a discussion on regulatory issues, future improvements and further applications.

Original language	English
Pages (from-to)	1304-1348
Number of pages	45
Journal	Advances in Space Research
Volume	72
Issue number	4
DOIs	https://doi.org/10.1016/j.asr.2023.05.037
Publication status	Published - 2023
Externally published	Yes

Keywords

Orbiting solar reflectors
Solar energy
Space mission analysis
Space technology
Space-based solar energy

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10.1016/j.asr.2023.05.037

Cite this

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title = "A reference architecture for orbiting solar reflectors to enhance terrestrial solar power plant output",

abstract = "Orbiting reflectors offer the possibility of illuminating large terrestrial solar power plants to enhance their output, particularly at dawn and dusk when their output is low but energy spot prices can be high. While the concept of orbiting solar reflectors has been considered in various forms in the past, there is now a timely overlap of rapidly growing global demand for clean energy services, falling launch costs through reusability and the emergence of in-orbit manufacturing technologies to enable the fabrication of large, ultra-lightweight space structures. This paper provides an end-to-end analysis of a possible minimum initial architecture to deliver such global clean energy services. The analysis will cover orbit selection, attitude control requirements, structural analysis and economical viability, followed by a discussion on regulatory issues, future improvements and further applications.",

keywords = "Orbiting solar reflectors, Solar energy, Space mission analysis, Space technology, Space-based solar energy",

author = "Andrea Viale and Onur {\c C}elik and Temitayo Oderinwale and Litesh Sulbhewar and McInnes, {Colin R.}",

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AU - Viale, Andrea

AU - Çelik, Onur

AU - Oderinwale, Temitayo

AU - Sulbhewar, Litesh

AU - McInnes, Colin R.

PY - 2023

Y1 - 2023

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AB - Orbiting reflectors offer the possibility of illuminating large terrestrial solar power plants to enhance their output, particularly at dawn and dusk when their output is low but energy spot prices can be high. While the concept of orbiting solar reflectors has been considered in various forms in the past, there is now a timely overlap of rapidly growing global demand for clean energy services, falling launch costs through reusability and the emergence of in-orbit manufacturing technologies to enable the fabrication of large, ultra-lightweight space structures. This paper provides an end-to-end analysis of a possible minimum initial architecture to deliver such global clean energy services. The analysis will cover orbit selection, attitude control requirements, structural analysis and economical viability, followed by a discussion on regulatory issues, future improvements and further applications.

KW - Orbiting solar reflectors

KW - Solar energy

KW - Space mission analysis

KW - Space technology

KW - Space-based solar energy

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A reference architecture for orbiting solar reflectors to enhance terrestrial solar power plant output

Abstract

Keywords

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