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Design and prototyping efforts for the space solar power initiative

Design and prototyping efforts for the space solar power initiative
Design and prototyping efforts for the space solar power initiative
The Space Solar Power Initiative (SSPI) seeks to enable reliable, cost-effective baseload power generation from large-scale solar power stations in space. We propose an ultralight, modular power station, having specific power in the range of 1-10 kW/kg for the photovoltaic (PV) collection subsystem. The building block of the power station is the `tile,' a self-contained element that performs PV energy collection, conversion to radio frequency (RF), and transmission to earth. To minimize PV mass, we select a 1D, 10-20X parabolic trough concentrator geometry, which provides cooling and radiation shielding for the cells, and which folds flat for deployment. Here, we discuss the design, fabrication, and testing of the initial PV tile prototypes.
558-561
IEEE
Kelzenberg, Michael
8be3db73-2853-4f80-8b94-c31bd6ce2381
Espinet-Gonzalez, Pilar
e560730c-28ca-489f-9132-4e14a4553cd1
Vaidya, Nina
aa741ed5-08f6-4d6c-8719-cdf727cd9e4b
Roy, Tatiana
cbf57042-11c5-423c-aa2c-af5c5d087849
Warmann, Emily C.
cf9bb80c-96cd-4e8b-9a66-18ffc8e1117b
Naqavi, Ali
eff0acba-842a-41ec-9d15-f3f31d634686
Loke, Samuel
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Huang, Jing-Shun
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Vinogradova, Tatiana
bbca74ce-8ee4-4825-b523-b05b2972d2af
Messer, Alexander J.
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Leclerc, Christophe
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Gdoutos, Eleftherios
c76b577f-c998-46ba-9918-ab52776e988a
Royer, Fabien
7eaabfeb-15bb-480c-a236-79eb9b82baab
Hajimiri, Ali
bcd15cac-ba92-4c17-82d3-e7741ffb7e3d
Pellegrino, Sergio
39fed961-a2a9-434d-9f61-77485e85db76
Atwater, Harry A.
7a80880f-3d29-4959-bc3b-7a0c5001610e
Kelzenberg, Michael
8be3db73-2853-4f80-8b94-c31bd6ce2381
Espinet-Gonzalez, Pilar
e560730c-28ca-489f-9132-4e14a4553cd1
Vaidya, Nina
aa741ed5-08f6-4d6c-8719-cdf727cd9e4b
Roy, Tatiana
cbf57042-11c5-423c-aa2c-af5c5d087849
Warmann, Emily C.
cf9bb80c-96cd-4e8b-9a66-18ffc8e1117b
Naqavi, Ali
eff0acba-842a-41ec-9d15-f3f31d634686
Loke, Samuel
fdd61a14-aa85-47b0-ac6a-47ccdbf66f5e
Huang, Jing-Shun
29b02e34-1cbd-4f05-ab38-978c6badcd44
Vinogradova, Tatiana
bbca74ce-8ee4-4825-b523-b05b2972d2af
Messer, Alexander J.
8d642e66-2202-4dc6-9883-bcd9a5ea7f2b
Leclerc, Christophe
f2e0f982-45b1-45b4-b292-c693ca35fc86
Gdoutos, Eleftherios
c76b577f-c998-46ba-9918-ab52776e988a
Royer, Fabien
7eaabfeb-15bb-480c-a236-79eb9b82baab
Hajimiri, Ali
bcd15cac-ba92-4c17-82d3-e7741ffb7e3d
Pellegrino, Sergio
39fed961-a2a9-434d-9f61-77485e85db76
Atwater, Harry A.
7a80880f-3d29-4959-bc3b-7a0c5001610e

Kelzenberg, Michael, Espinet-Gonzalez, Pilar, Vaidya, Nina, Roy, Tatiana, Warmann, Emily C., Naqavi, Ali, Loke, Samuel, Huang, Jing-Shun, Vinogradova, Tatiana, Messer, Alexander J., Leclerc, Christophe, Gdoutos, Eleftherios, Royer, Fabien, Hajimiri, Ali, Pellegrino, Sergio and Atwater, Harry A. (2018) Design and prototyping efforts for the space solar power initiative. In 2017 IEEE 44th Photovoltaic Specialist Conference (PVSC). IEEE. pp. 558-561 . (doi:10.1109/PVSC.2017.8366621).

Record type: Conference or Workshop Item (Paper)

Abstract

The Space Solar Power Initiative (SSPI) seeks to enable reliable, cost-effective baseload power generation from large-scale solar power stations in space. We propose an ultralight, modular power station, having specific power in the range of 1-10 kW/kg for the photovoltaic (PV) collection subsystem. The building block of the power station is the `tile,' a self-contained element that performs PV energy collection, conversion to radio frequency (RF), and transmission to earth. To minimize PV mass, we select a 1D, 10-20X parabolic trough concentrator geometry, which provides cooling and radiation shielding for the cells, and which folds flat for deployment. Here, we discuss the design, fabrication, and testing of the initial PV tile prototypes.

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More information

Published date: 4 November 2018

Identifiers

Local EPrints ID: 470880
URI: http://eprints.soton.ac.uk/id/eprint/470880
DOI: doi:10.1109/PVSC.2017.8366621
PURE UUID: 4c537472-8ff5-445e-81a3-9433d8779cb1
ORCID for Nina Vaidya: ORCID iD orcid.org/0000-0003-1843-7545

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Date deposited: 20 Oct 2022 16:45
Last modified: 17 Mar 2024 04:09

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Contributors

Author: Michael Kelzenberg
Author: Pilar Espinet-Gonzalez
Author: Nina Vaidya ORCID iD
Author: Tatiana Roy
Author: Emily C. Warmann
Author: Ali Naqavi
Author: Samuel Loke
Author: Jing-Shun Huang
Author: Tatiana Vinogradova
Author: Alexander J. Messer
Author: Christophe Leclerc
Author: Eleftherios Gdoutos
Author: Fabien Royer
Author: Ali Hajimiri
Author: Sergio Pellegrino
Author: Harry A. Atwater

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