Stefanie Van Wychen scite author profile

In the context of algal biofuels, lipids, or better aliphatic chains of the fatty acids, are perhaps the most important constituents of algal biomass. Accurate quantification of lipids and their respective fuel yield is crucial for comparison of algal strains and growth conditions and for process monitoring. As an alternative to traditional solvent-based lipid extraction procedures, we have developed a robust whole-biomass in situ transesterification procedure for quantification of algal lipids (as fatty acid methyl esters, FAMEs) that (a) can be carried out on a small scale (using 4–7 mg of biomass), (b) is applicable to a range of different species, (c) consists of a single-step reaction, (d) is robust over a range of different temperature and time combinations, and (e) tolerant to at least 50% water in the biomass. Unlike gravimetric lipid quantification, which can over- or underestimate the lipid content, whole biomass transesterification reflects the true potential fuel yield of algal biomass. We report here on the comparison of the yield of FAMEs by using different catalysts and catalyst combinations, with the acid catalyst HCl providing a consistently high level of conversion of fatty acids with a precision of 1.9% relative standard deviation. We investigate the influence of reaction time, temperature, and biomass water content on the measured FAME content and profile for 4 different samples of algae (replete and deplete Chlorella vulgaris, replete Phaeodactylum tricornutum, and replete Nannochloropsis sp.). We conclude by demonstrating a full mass balance closure of all fatty acids around a traditional lipid extraction process.FigureAccurate quantification of different types of lipids in algal biomass using a comprehensive study of reaction parameters.Electronic supplementary materialThe online version of this article (doi:10.1007/s00216-012-5814-0) contains supplementary material, which is available to authorized users.

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Combined algal processing: A novel integrated biorefinery process to produce algal biofuels and bioproducts

Dong

et al. 2016

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Stefanie Van Wychen

Acid-catalyzed algal biomass pretreatment for integrated lipid and carbohydrate-based biofuels production

Accurate and reliable quantification of total microalgal fuel potential as fatty acid methyl esters by in situ transesterification

Combined algal processing: A novel integrated biorefinery process to produce algal biofuels and bioproducts

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