Waste Valorization of Passion Fruit Peel Hydrolysate for Bacterial Cellulose Production: Influence of Nitrogen Source on Yield and Functional Properties for Food Packaging
Aida Aguilera Infante-Neta, Alan Portal D’Almeida, Raissa Saraiva Lima, Juan Antonio Cecília, Ivanildo José da Silva Junior, Luciana Barros Gonçalves, Tiago Lima de Albuquerque

TL;DR
This paper explores using passion fruit peel waste to produce bacterial cellulose for food packaging, with nitrogen sources affecting yield and quality.
Contribution
The study demonstrates a novel approach to valorizing passion fruit peel waste for bacterial cellulose production with optimized nitrogen sources.
Findings
Ammonium sulfate maximized BC yield at 81 g L−1.
Sodium nitrate improved impurity removal by 77.51%.
PFPH-based BC showed thermal stability up to ~300°C and biodegraded 26% in 42 days.
Abstract
The valorization of agro-industrial residues represents a strategic approach to advancing sustainability and circular bioeconomy principles in the food sector. Although bacterial cellulose (BC) production from waste substrates has been widely explored, limited attention has been given to the role of nitrogen source modulation in complex fermentation systems. This study evaluated passion fruit peel hydrolysate (PFPH), a cellulose- and hemicellulose-rich by-product, as an alternative carbon source for BC production using a symbiotic culture of bacteria and yeast (SCOBY) under static conditions. Acid hydrolysis and detoxification were performed to obtain fermentable sugars while minimizing inhibitory compounds. Different nitrogen sources and purification strategies were comparatively assessed. The highest purified BC yield (81 g L−1 of culture medium) was obtained using ammonium sulfate,…
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Taxonomy
TopicsAdvanced Cellulose Research Studies · Biofuel production and bioconversion · Polysaccharides and Plant Cell Walls
