Microbiological aspects of biodiesel and biodiesel/diesel blends biodeterioration

The present work consisted of evaluating and comparing, at bench scale, the biodeterioration processes of diesel oil, soy biodiesel (B100 soy), beef tallow biodiesel (B100 beef tallow) and the resulting blends containing 5% biodiesel and 95% diesel oil (B5), throughout 42 days storage. Fuels were st...

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Bibliographic Details
Published in:International biodeterioration & biodegradation 2015-04, Vol.99, p.102-114
Main Authors: Soriano, Adriana Ururahy, Martins, Luiz Fernando, Santos de Assumpção Ventura, Eliane, Teixeira Gerken de Landa, Frederico Henrique, de Araújo Valoni, Érika, Dutra Faria, Fátima Regina, Ferreira, Rafael Fragoso, Kremer Faller, Maria Clara, Valério, Renato Rocha, Catharine de Assis Leite, Deborah, Lima do Carmo, Flávia, Peixoto, Raquel Silva
Format: Article
Language:English
Subjects:
Bacteria
Beef
Beef tallow biodiesel
Biodegradation
Biodiesel
Blends
Diesel
Diesel contamination
Diesel fuels
Fuels
Microbial diversity
Microorganisms
Soy biodiesel
Storage
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Summary:The present work consisted of evaluating and comparing, at bench scale, the biodeterioration processes of diesel oil, soy biodiesel (B100 soy), beef tallow biodiesel (B100 beef tallow) and the resulting blends containing 5% biodiesel and 95% diesel oil (B5), throughout 42 days storage. Fuels were stored with and without the inoculation of a microbial consortium from a water drainage tank, under conditions that simulated service station storage. Oxygen consumption and carbon dioxide production were more pronounced in the presence of microbial inoculum, especially for B100 and B5 beef tallow. Diesel oil instead was the least subject to chemical and/or biological oxidation. A trend of increase in acid number was also observed and for B100 soy and B5 beef tallow the regulatory limits were exceeded. Residues deposition was observed in all inoculated fuels, especially in B5 beef tallow. Communities' differentiation depended on biodiesel feedstock and occurred during storage time. Among all microcosms, 18 microbial genera (8 fungal and 10 bacterial) were identified by DNA sequencing, being 17 of them directly linked to: fuel microbial contamination and/or biodegradation (74%); biofuel production or related enzymes expression (26%); biofilm formation and/or exopolysaccharide production (26%), emulsifying properties (11%) and nitrogen fixation (5%). Finally, despite the biodeterioration events in all the fuels, such phenomenon had small magnitude, even in inoculated samples. •The type of biodiesel influences microbial community and the blend vulnerability to biodeterioration.•Biodeterioration of all the products occurred during storage and tended to increase over time especially in blends.•The magnitude of biodeterioration did not cause alterations in fuel compositional profiles analyzed.•Incorporation of biodiesel to diesel stimulates deposits formation if microbial contamination is high.
ISSN:0964-8305
1879-0208
DOI:10.1016/j.ibiod.2014.11.014