Cultivation of Chlorella vulgaris using sequential-flow bubble column photobioreactor: A stress-inducing strategy for lipid accumulation and carbon dioxide fixation
Biological CO2 fixation by microalgae coupled with value-added product creation appears to be a sustainable approach in microalgae-based industry. However, the major constraint of this process is the low solubility of CO2 in water which limits CO2 fixation ability by the microalgae. Therefore, the c...
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my.utp.eprints.299492022-03-25T03:16:48Z Cultivation of Chlorella vulgaris using sequential-flow bubble column photobioreactor: A stress-inducing strategy for lipid accumulation and carbon dioxide fixation Dasan, Y.K. Lam, M.K. Yusup, S. Lim, J.W. Show, P.L. Tan, I.S. Lee, K.T. Biological CO2 fixation by microalgae coupled with value-added product creation appears to be a sustainable approach in microalgae-based industry. However, the major constraint of this process is the low solubility of CO2 in water which limits CO2 fixation ability by the microalgae. Therefore, the current work aimed to improve the CO2 fixation efficiency of Chlorella vulgaris through the introduction of sequential-flow bubble column photobioreactor system. The influence of various cultivation parameters towards the growth, carbon fixation efficiency, lipid accumulation, and fatty acid profile of C. vulgaris were explored. Experimental results showed that microalgae cultivated under optimized conditions attained the highest biomass productivity (0.83-0.86 »g/L/day) as compared to the control conditions. Meanwhile, the highest lipid content (50.4 for SFB-PBR1) was recorded when the microalgae were cultivated in the spent medium. In addition, the CO2 fixation efficiency by microalgae in the sequential-flow photobioreactor system under the optimized condition was 3.78-fold higher than a single column mode (control). In short, the present work had demonstrated that cultivation conditions and photobioreactors configuration were equally important for an effective carbon capture process via microalgae cultivation. © 2020 Elsevier Ltd. Elsevier Ltd 2020 Article NonPeerReviewed https://www.scopus.com/inward/record.uri?eid=2-s2.0-85090284167&doi=10.1016%2fj.jcou.2020.101226&partnerID=40&md5=a3eeecc6f2bbf18ef9bbd4cb716c4090 Dasan, Y.K. and Lam, M.K. and Yusup, S. and Lim, J.W. and Show, P.L. and Tan, I.S. and Lee, K.T. (2020) Cultivation of Chlorella vulgaris using sequential-flow bubble column photobioreactor: A stress-inducing strategy for lipid accumulation and carbon dioxide fixation. Journal of CO2 Utilization, 41 . http://eprints.utp.edu.my/29949/ |
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Biological CO2 fixation by microalgae coupled with value-added product creation appears to be a sustainable approach in microalgae-based industry. However, the major constraint of this process is the low solubility of CO2 in water which limits CO2 fixation ability by the microalgae. Therefore, the current work aimed to improve the CO2 fixation efficiency of Chlorella vulgaris through the introduction of sequential-flow bubble column photobioreactor system. The influence of various cultivation parameters towards the growth, carbon fixation efficiency, lipid accumulation, and fatty acid profile of C. vulgaris were explored. Experimental results showed that microalgae cultivated under optimized conditions attained the highest biomass productivity (0.83-0.86 »g/L/day) as compared to the control conditions. Meanwhile, the highest lipid content (50.4 for SFB-PBR1) was recorded when the microalgae were cultivated in the spent medium. In addition, the CO2 fixation efficiency by microalgae in the sequential-flow photobioreactor system under the optimized condition was 3.78-fold higher than a single column mode (control). In short, the present work had demonstrated that cultivation conditions and photobioreactors configuration were equally important for an effective carbon capture process via microalgae cultivation. © 2020 Elsevier Ltd. |
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Dasan, Y.K. Lam, M.K. Yusup, S. Lim, J.W. Show, P.L. Tan, I.S. Lee, K.T. |
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Dasan, Y.K. Lam, M.K. Yusup, S. Lim, J.W. Show, P.L. Tan, I.S. Lee, K.T. Cultivation of Chlorella vulgaris using sequential-flow bubble column photobioreactor: A stress-inducing strategy for lipid accumulation and carbon dioxide fixation |
author_facet |
Dasan, Y.K. Lam, M.K. Yusup, S. Lim, J.W. Show, P.L. Tan, I.S. Lee, K.T. |
author_sort |
Dasan, Y.K. |
title |
Cultivation of Chlorella vulgaris using sequential-flow bubble column photobioreactor: A stress-inducing strategy for lipid accumulation and carbon dioxide fixation |
title_short |
Cultivation of Chlorella vulgaris using sequential-flow bubble column photobioreactor: A stress-inducing strategy for lipid accumulation and carbon dioxide fixation |
title_full |
Cultivation of Chlorella vulgaris using sequential-flow bubble column photobioreactor: A stress-inducing strategy for lipid accumulation and carbon dioxide fixation |
title_fullStr |
Cultivation of Chlorella vulgaris using sequential-flow bubble column photobioreactor: A stress-inducing strategy for lipid accumulation and carbon dioxide fixation |
title_full_unstemmed |
Cultivation of Chlorella vulgaris using sequential-flow bubble column photobioreactor: A stress-inducing strategy for lipid accumulation and carbon dioxide fixation |
title_sort |
cultivation of chlorella vulgaris using sequential-flow bubble column photobioreactor: a stress-inducing strategy for lipid accumulation and carbon dioxide fixation |
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Elsevier Ltd |
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2020 |
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https://www.scopus.com/inward/record.uri?eid=2-s2.0-85090284167&doi=10.1016%2fj.jcou.2020.101226&partnerID=40&md5=a3eeecc6f2bbf18ef9bbd4cb716c4090 http://eprints.utp.edu.my/29949/ |
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