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Volume 8, Issue 5 (Suppl)

J Bioremediat Biodegrad, an open access journal

ISSN: 2155-6199

Biofuels Congress 2017

September 05-06, 2017

September 05-06, 2017 | London, UK

Biofuels and Bioenergy

World Congress on

Microalgae biorefinery high-value chemicals: Polysaccharides

Mustapha Benmoussa

AGT Nutraceuticals, USA

Many renewable energy technologies had been developed such as Aeolian wind and solar (1). However, there is a need to

develop renewable fuels for transportation without compromising food security. Land crop is currently the main source of

food and biofuels (2,3), and it will not be able to respond to all the fuel and food demand in the future. Microalgae could be a

potential biomass alternative. Microalgae is a micro-crop that produce oleaginous biomass where no land crop can grow, can

use seawater instead of fresh water, and use sun light to convert CO

into high-value chemicals (4). The microalgae biorefinery

could then establish a positive association between bioenergy and food security leading to a significant positive impact on the

socio-economic development. A viable microalgae biorefinery should be designed in a way to improve high-value chemicals

yield such as polysaccharides (Figure1). Methodology and Results: Polysaccharides were extracted from

Botryococcus braunii

by alkaline hydrothermal treatment solution for 10 h. Ethanol (2 volumes) was used to precipitate water-soluble polysaccharides

for characterization. The glycosyl-linkage analysis showed that polysaccharides polymers are less branched and dominated by

(1-4) linkage. The viscosity behavior was measured at 25°C (5), at the concentration 10% (w/v), the profile of viscosity versus

shear rate showed a non-Newtonian pseudoelastic viscosity. It is a shear thinning behavior in the shear rate range of 0.01 to

1000 1/s. This property indicated the alignment of the less branched polysaccharide polymer in the direction of the flow under

increasing shear rate. The polysaccharides solution (10%) viscosity test was also performed with a temperature range from

25°C to 100°C and showed also a decreasing viscosity.

Conclusion: The low viscosity, shear thinning and water solubility properties of extracted polysaccharides demonstrated

potential applications in supplements, cosmetics, food, and beverages industry to improve commercial microalgae biorefinery

feasibility.

J Bioremediat Biodegrad 2017, 8:5(Suppl)

DOI: 10.4172/2155-6199-C1-009