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Abstract
Introduction This article studies the bacterial cellulose (BC) produced using hydrolysates obtained from three Malaysian domestic agricultural wastes which are banana peels, potato peels, and sago effluent. Methods The wastes were hydrolysed using sulphuric acid at concentration of 4% (v/v) or 6% (v/v) for 20 minutes at two different temperatures, 105oC and 121oC, before being used as a carbon source in a culture media for the production of BC. Results Banana peel hydrolysate produced the highest BC yield (2.89 g/L) compared to potato peel hydrolysate (2.42 g/L) and sago effluent (0.38 g/L). However, the potato peel hydrolysate contains a higher glucose concentration (43.44 mg/mL) than banana peel hydrolysate (19.15 mg/mL). It was investigated that pH 6 as the initial pH of fermentation media and 2.0% of initial carbon source concentration are the best conditions for the fermentation of BC using banana peel hydrolysate as a carbon source. The morphology of BC produced from banana peel hydrolysate captured by SEM has ultrafine fibrils and a pore-like reticulated structure, similar to BC produced from standard HS media. Conclusion This study showed that banana peel hydrolysate is a promising carbon source for BC production, yielding the highest BC yield with desirable characteristics. In addition, the optimal fermentation conditions were identified in this study, which is useful for large-scale or industrial production.
Highlights
This article studies the bacterial cellulose (BC) produced using hydrolysates obtained from three Malaysian domestic agricultural wastes which are banana peels, potato peels, and sago effluent
Hydrolysis conducted at 121oC for peels produces higher glucose concentration than at 105oC because high temperature can facilitate the breakdown of hemicellulose to cellulose, increasing the amount of cellulose to be converted to glucose in the hydrolysate [32]
BC was successfully produced from the hydrolysate of wastes
Summary
This article studies the bacterial cellulose (BC) produced using hydrolysates obtained from three Malaysian domestic agricultural wastes which are banana peels, potato peels, and sago effluent. Compared to plant cellulose, which contains lignin, pectin, hemicellulose, and other compounds, BC does not require any purification methods to recover pure cellulose [4]. These characteristics made BC the center of attention for applications in food, medicine, and cosmetics [4-10]. Researchers shifted to using other saccharides and alcohol [8] as carbon sources for fermentation. BC is produced in nata de coco from coconut juice [5]. This pioneered BC production from various juices such as date, orange, pineapple, apple, pear, and other fruits [12, 13].
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