Journal
APPLIED SCIENCES-BASEL
Volume 11, Issue 15, Pages -Publisher
MDPI
DOI: 10.3390/app11156756
Keywords
cyanobacteria; Arthrospira; glycogen
Categories
Funding
- Auvergne Region
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In recent years, studies have been developed to establish a sustainable biofuel production sector in order to address the scarcity of fossil fuels. This new sector must be efficient, economically profitable, and ethical. The production of bioethanol is mainly based on the fermentation of reserve sugars in microalgae and cyanobacteria, with Spirulina being one of the most cultivated cyanobacteria for bioethanol production.
In recent decades and to deal with the scarcity of fossil fuels, many studies have been developed in order to set up a sustainable biofuel production sector. This new sector must be efficient (high productivity), economically profitable (low production costs and therefore acceptable fuel prices), and ethical (low carbon balance, no competition with food resources). The production of bioethanol is based on the fermentation of reserve sugars, accumulated in the form of starch in microalgae and glycogen in cyanobacteria. The advantage of this bioenergy production route lies in the fact that the post-crop fermentation process is at the industrial stage since it has already been tested for many years for the production of bioethanol from agricultural resources. One of the most cultivated cyanobacteria is Arthrospira (Spirulina) and its production is also already at industrial scale. Depending on the cultivation conditions, this cyanobacteria is able to accumulate up to 65% DW (dry weight) of glycogen, making it a feasible feedstock for bioethanol production. The aim of this review is to provide a clear overview of these operating conditions for glycogen accumulation.
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