Fermentation of BC production is co

Fermentation of BC production is conducted in either static, agitated or stirred conditions. Different forms of
cellulose are produced under these conditions. Three dimensional interconnected reticular pellicle was reported
under static condition while both agitated and stirred condition produced irregular shape sphere-like cellulose
particle (SCP) (Tanskul et al., 2013). The process of cellulose formation under static condition is regulated by air
supply from medium surface and the yield depends on the carbon source concentration moderately (Budhiono et al.,
1999). The increasing of growth time will increase the formation of BC along with hydrogen and C-H bonding
(Sheykhnazari et al., 2011). Synthesis of BC reach its limit when the pellicle growth downward and entraps all
bacteria. Bacteria become inactive due to insufficient oxygen supply (Borzani and Desouza, 1995).Semi-continuous
process in static condition is recommended at industrial scale as it manage to increase BC productivity compared to
continuous process (Ҫakar et al., 2014).
In contrast, due to low yield of the static production, most of cellulose used in commercial purpose is generated
through agitated fermentation. Agitated condition causes formation of SCP, an irregular forms of cellulose either in
fibrous suspension, spheres, pellets or irregular masses (Yan et al., 2008, Wu and Lia, 2008). The SCP has lower
crystallinity, mechanical strength and degree of polymerization compared to pellicle from static culture (Shi et al.,
2013). The altered microfibrils organization was proposed related to the disruption effects of aeration on the
hydrogen bonds formations between cellulose (Bootten et al., 2008). Study by Hu et al. (2013) found that the
number of SCP decreased with the increasing volume of inoculums while different initial glucose concentration only
gave an impact to the mean diameters of SCP. However, the mechanism of SCP formation is still remain unknown.