AI Article Synopsis
- The study investigated using dispersed ozone gas for the flotation separation of Chlorella vulgaris, an algae with promising CO(2) capture and lipid production capabilities.
- Unlike pure oxygen aeration, ozone demonstrated effective algae separation from the broth with a low ozone dose of less than 0.05 mg/g biomass.
- The process resulted in the collection of a key lipid product (C16:0) and highlighted the role of released intracellular proteins as surfactants in enhancing flotation efficiency.
Article Abstract
Flotation separation of Chlorella vulgaris, a species with excellent potential for CO(2) capture and lipid production, was studied using dispersed ozone gas. Pure oxygen aeration did not yield flotation. Conversely, applying ozone effectively separation algae from broth through flotation. The ozone dose applied for sufficient algal flotation is <0.05 mg/g biomass, much lower than those used in practical drinking waterworks (0.1-0.3 mg/g suspended solids). Main products, lipid C16:0, was effectively collected in the flotage phase. The algae removal rate, surface charge, and hydrophobicity of algal cells, and proteins and polysaccharides contents of algogenic organic matter (AOM) were determined. Certain quantities of proteins were present in the cultivated algal suspension, hence, minimal quantity of ozone was required to release intracellular proteins as surfactants to lead to effective flotation.
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| http://dx.doi.org/10.1016/j.biortech.2010.07.016 | DOI Listing |
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