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dc.contributor.authorEilertsen, Hans Christian
dc.contributor.authorEriksen, Gunilla
dc.contributor.authorBergum, John-Steinar
dc.contributor.authorStrømholt, Jo
dc.contributor.authorElvevoll, Edel O.
dc.contributor.authorEilertsen, Karl-Erik
dc.contributor.authorHeimstad, Eldbjørg Sofie
dc.contributor.authorGiæver, Ingeborg Hulda
dc.contributor.authorIsraelsen, Linn
dc.contributor.authorSvenning, Jon Brage
dc.contributor.authorDalheim, Lars
dc.contributor.authorOsvik, Renate Døving
dc.contributor.authorHansen, Espen Holst
dc.contributor.authorIngebrigtsen, Richard Andre
dc.contributor.authorAspen, Terje M
dc.contributor.authorWintervoll, Geir-Henning
dc.date.accessioned2022-03-30T07:45:20Z
dc.date.available2022-03-30T07:45:20Z
dc.date.issued2022-03-17
dc.description.abstractFrom 2015 to 2021, we optimized mass cultivation of diatoms in our own developed vertical column airlift photobioreactors using natural and artificial light (LEDs). The project took place at the ferrosilicon producer Finnfjord AS in North Norway as a joint venture with UiT—The Arctic University of Norway. Small (0.1–6–14 m<sup>3</sup>) reactors were used for initial experiments and to produce inoculum cultures while upscaling experiments took place in a 300 m<sup>3</sup> reactor. We here argue that species cultivated in reactors should be large since biovolume specific self-shadowing of light can be lower for large vs. small cells. The highest production, 1.28 cm<sup>3</sup> L<sup>-1</sup> biovolume (0.09–0.31 g DW day<sup>-1</sup>), was obtained with continuous culture at ca. 19% light utilization efficiency and 34% CO<sub>2</sub> uptake. We cultivated 4–6 months without microbial contamination or biofouling, and this we argue was due to a natural antifouling (anti-biofilm) agent in the algae. In terms of protein quality all essential amino acids were present, and the composition and digestibility of the fatty acids were as required for feed ingredients. Lipid content was ca. 20% of ash-free DW with high EPA levels, and omega-3 and amino acid content increased when factory fume was added. The content of heavy metals in algae cultivated with fume was well within the accepted safety limits. Organic pollutants (e.g., dioxins and PCBs) were below the limits required by the European Union food safety regulations, and bioprospecting revealed several promising findings.en_US
dc.descriptionkorrigere sammendragen_US
dc.identifier.citationEilertsen, Eriksen, Bergum, Strømholt, Elvevoll, Eilertsen, Heimstad, Giæver, Israelsen, Svenning, Dalheim, Osvik, Hansen, Ingebrigtsen, Aspen, Wintervoll. Mass Cultivation of Microalgae: I. Experiences with Vertical Column Airlift Photobioreactors, Diatoms and CO2 Sequestration. Applied Sciences. 2022en_US
dc.identifier.cristinIDFRIDAID 2012460
dc.identifier.doi10.3390/app12063082
dc.identifier.issn2076-3417
dc.identifier.urihttps://hdl.handle.net/10037/24640
dc.language.isoengen_US
dc.publisherMDPIen_US
dc.relation.journalApplied Sciences
dc.rights.accessRightsopenAccessen_US
dc.rights.holderCopyright 2022 The Author(s)en_US
dc.titleMass Cultivation of Microalgae: I. Experiences with Vertical Column Airlift Photobioreactors, Diatoms and CO2 Sequestrationen_US
dc.type.versionpublishedVersionen_US
dc.typeJournal articleen_US
dc.typeTidsskriftartikkelen_US
dc.typePeer revieweden_US


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