Orbiting solar reflectors

A pathway to extended space-based solar power availability and enhanced grid stability

Journal Article (2024)
Author(s)

Khaldon Ahmed Qaid (University of Glasgow)

Onur Çelik (TU Delft - Aerospace Engineering)

Colin R. McInnes (University of Glasgow)

Research Group
Astrodynamics & Space Missions
DOI related publication
https://doi.org/10.1049/icp.2024.4506 Final published version
More Info
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Publication Year
2024
Language
English
Research Group
Astrodynamics & Space Missions
Bibliographical Note
Green Open Access added to TU Delft Institutional Repository as part of the Taverne amendment. More information about this copyright law amendment can be found at https://www.openaccess.nl. Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public.
Journal title
IET Conference Proceedings
Issue number
32
Volume number
2024
Pages (from-to)
69-75
Event
IET Powering Net Zero 2024, PNZ 2024 (2024-12-03 - 2024-12-06), Birmingham, United Kingdom
Downloads counter
78
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Abstract

The transition to clean energy resources such as solar energy is critical for the battle against climate change and to achieve net zero emission goals. However, one of the challenges solar energy faces is its dependence on daylight hours only for energy production. This challenge restricts the availability of solar energy after daylight hours which leads to reliance on fossil fuel generators during peak demand periods, thus, increasing CO2 emissions. To overcome this challenge, orbiting solar reflectors (OSRs) were proposed as a future technology which can reflect sunlight to terrestrial solar power farms (SPF) from space during dawn and dusk. This paper aims to explore the integration of OSRs into SPFs to extend the availability of energy after hours of sunlight and reduce carbon emissions by reducing dependency on fossil fuel generators. Furthermore, the paper discusses how OSRs can contribute to the stability of the voltage of the power grid. The results show that the OSR could significantly boost the energy output of a SPF during these periods, thereby extending the availability of solar energy and decreasing the reliance on fossil fuel generators. This technology has the potential to reduce carbon emissions, which contributes to global efforts to reduce climate change. Furthermore, the findings illustrate how OSRs can help maintain voltage stability in the power grid by providing more energy during the peak demand period.

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