Design of an Energy-Saving Membrane Separation Module for Algae Cultivation
In this study, focusing on a zeolite membrane separation method expected energy-saving, appropriate environments for algae cultivation were investigated from the CO2 capture aspects. In addition, the authors elucidated the membrane separation performance and its energy consumption through experiment...
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AIDIC Servizi S.r.l.
2021
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oai:doaj.org-article:1df18bf822314a288114b8663e2e80f12021-11-15T21:47:43ZDesign of an Energy-Saving Membrane Separation Module for Algae Cultivation10.3303/CET21881302283-9216https://doaj.org/article/1df18bf822314a288114b8663e2e80f12021-11-01T00:00:00Zhttps://www.cetjournal.it/index.php/cet/article/view/11923https://doaj.org/toc/2283-9216In this study, focusing on a zeolite membrane separation method expected energy-saving, appropriate environments for algae cultivation were investigated from the CO2 capture aspects. In addition, the authors elucidated the membrane separation performance and its energy consumption through experiments and simulations for the integration of CO2-treated processes. The results suggested that only 2-15 % CO2 in air ventilation was required for several algae growth. To satisfy the CO2 concentration constraint, the membrane could separate CO2 to approximately 15 % with the energy required for 0.76 MJ/kg-CO2 and a recovery ratio of 71 %. The combination of membrane separation and algae cultivation from low concentration CO2 sources is a promising method for carbon capture and utilisation.Yuki SatoYasuki KanshaAIDIC Servizi S.r.l.articleChemical engineeringTP155-156Computer engineering. Computer hardwareTK7885-7895ENChemical Engineering Transactions, Vol 88 (2021) |
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Chemical engineering TP155-156 Computer engineering. Computer hardware TK7885-7895 |
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Chemical engineering TP155-156 Computer engineering. Computer hardware TK7885-7895 Yuki Sato Yasuki Kansha Design of an Energy-Saving Membrane Separation Module for Algae Cultivation |
description |
In this study, focusing on a zeolite membrane separation method expected energy-saving, appropriate environments for algae cultivation were investigated from the CO2 capture aspects. In addition, the authors elucidated the membrane separation performance and its energy consumption through experiments and simulations for the integration of CO2-treated processes. The results suggested that only 2-15 % CO2 in air ventilation was required for several algae growth. To satisfy the CO2 concentration constraint, the membrane could separate CO2 to approximately 15 % with the energy required for 0.76 MJ/kg-CO2 and a recovery ratio of 71 %. The combination of membrane separation and algae cultivation from low concentration CO2 sources is a promising method for carbon capture and utilisation. |
format |
article |
author |
Yuki Sato Yasuki Kansha |
author_facet |
Yuki Sato Yasuki Kansha |
author_sort |
Yuki Sato |
title |
Design of an Energy-Saving Membrane Separation Module for Algae Cultivation |
title_short |
Design of an Energy-Saving Membrane Separation Module for Algae Cultivation |
title_full |
Design of an Energy-Saving Membrane Separation Module for Algae Cultivation |
title_fullStr |
Design of an Energy-Saving Membrane Separation Module for Algae Cultivation |
title_full_unstemmed |
Design of an Energy-Saving Membrane Separation Module for Algae Cultivation |
title_sort |
design of an energy-saving membrane separation module for algae cultivation |
publisher |
AIDIC Servizi S.r.l. |
publishDate |
2021 |
url |
https://doaj.org/article/1df18bf822314a288114b8663e2e80f1 |
work_keys_str_mv |
AT yukisato designofanenergysavingmembraneseparationmoduleforalgaecultivation AT yasukikansha designofanenergysavingmembraneseparationmoduleforalgaecultivation |
_version_ |
1718426769901486080 |