From raw microalgae to bioplastics: Conversion of Chlorella vulgaris starch granules into thermoplastic starch

From raw microalgae to bioplastics: Conversion of Chlorella vulgaris starch granules into thermoplastic starch

Microalgae are emerging as a promising feedstock for bioplastics, with Chlorella vulgaris yielding significant amounts of starch. This polysaccharide is convertible into thermoplastic starch (TPS), a biodegradable plastic of industrial relevance. In this study, we developed a pilot-scale protocol fo...

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Bibliographic Details
Published in:Carbohydrate polymers Vol. 342; p. 122342
Main Authors: Six, A., Dauvillée, D., Lancelon-Pin, C., Dimitriades-Lemaire, A., Compadre, A., Dubreuil, C., Alvarez, P., Sassi, J.-F., Li-Beisson, Y., Putaux, J.-L., Le Moigne, N., Fleury, G.
Format: Journal Article
Language:English
Published: England Elsevier Ltd 15-10-2024
Elsevier
Subjects:
Biodegradable Plastics - chemistry
Biomass
Bioplastics
Chemical engineering
Chemical Sciences
Chlorella vulgaris
Chlorella vulgaris - chemistry
Chlorella vulgaris - metabolism
Extrusion
Injection
Microalgae
Microalgae - chemistry
Microalgae - metabolism
Polymers
Starch - chemistry
Starch - metabolism
Temperature
Thermoplastic starch
DW
DSC
Chlorella vulgaris
TPS
Extrusion
Microalgae
Thermoplastic starch
Injection
Bioplastics
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Summary:Microalgae are emerging as a promising feedstock for bioplastics, with Chlorella vulgaris yielding significant amounts of starch. This polysaccharide is convertible into thermoplastic starch (TPS), a biodegradable plastic of industrial relevance. In this study, we developed a pilot-scale protocol for extracting and purifying starch from 430 g (dry weight – DW) of starch-enriched Chlorella vulgaris biomass. More than 200 gDW of starch were recovered, with an extraction yield and starch purity degree reaching 98 and 87 %, respectively. We have characterized this extracted starch and processed it into TPS using twin-screw extrusion and injection molding. Microalgal starch showed similar properties to those of native plant starch, but with smaller granules. We compared the mechanical properties of microalgal TPS with two controls, namely a commercial TPS and a TPS prepared from commercial potato starch granules. TPS prepared from microalgal starch showed a softer and more ductile behavior compared to the reference materials. This study demonstrates the feasibility of recovering high-purity microalgal starch at pilot scale with high yields, and highlights the potential of microalgal starch for the production of TPS using industrially relevant processes. [Display omitted]
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ISSN:0144-8617
1879-1344
1879-1344
DOI:10.1016/j.carbpol.2024.122342