2018
DOI: 10.1002/ceat.201700594
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Formation and Separation of Particles fromEmiliania huxleyi

Abstract: Three reactor systems for Emiliania huxleyi cultivation are reviewed in respect to coccolith production. After cell lysis, the particle size distribution was determined for the system. Fraction changes caused through ultrasonication were characterized by comparing particle size distributions. Insufficient de‐agglomeration and possible re‐agglomeration at longer treatment intervals could be observed. Zeta potential measurements of the treated samples indicated no significant surface modifications. Scanning elec… Show more

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“…This instantly limits the applied stress and solvents that could be used on the system. Still, agglomerated particles have to be broken in some way . Coccolith‐associated polysaccharide (CAP) molecules have been identified to cover each particle , and act as a glue to fixate coccoliths on the coccosphere , .…”
Section: Introductionmentioning
confidence: 99%
“…This instantly limits the applied stress and solvents that could be used on the system. Still, agglomerated particles have to be broken in some way . Coccolith‐associated polysaccharide (CAP) molecules have been identified to cover each particle , and act as a glue to fixate coccoliths on the coccosphere , .…”
Section: Introductionmentioning
confidence: 99%