Journal
FOODS
Volume 12, Issue 12, Pages -Publisher
MDPI
DOI: 10.3390/foods12122280
Keywords
sugarcane straws; arabinoxylan; alkaline extraction; response surface methodology; economic viability
Categories
Ask authors/readers for more resources
This study optimized a two-step alkaline extraction method for arabinoxylans from sugarcane straw and evaluated its industrial-scale production potential. The arabinoxylans extracted from the straw had high purity levels and an average molecular weight of 231 kDa, with an estimated production cost of 0.239 euro/g arabinoxylan. This work provides a model for industrial-scale production of arabinoxylans.
Sugarcane processing produces a significant amount of byproducts in the form of straw and bagasse, which are rich in cellulose, hemicellulose, and lignin. This work aims to provide a valorization approach to sugarcane straw by optimizing a two-step alkaline extraction of arabinoxylans by a response surface methodology to evaluate a potential industrial-scale production. Sugarcane straws were delignified using an alkaline-sulfite pretreatment, followed by alkaline extraction and precipitation of arabinoxylan, a two-step process optimized using a response surface methodology. A KOH concentration of (2.93-17.1%) and temperature (18.8-61.2 & DEG;C) were chosen as independent variables, and the arabinoxylan yield (%) as a response variable. The model application shows that KOH concentration, temperature, and the interaction between both independent variables are significant in extracting arabinoxylans from straw. The best-performing condition was further characterized by FTIR, DSC, and chemical and molecular weight evaluation. The straws arabinoxylans presented high purities levels, ca. 69.93%, and an average molecular weight of 231 kDa. The overall estimated production cost of arabinoxylan from straw was 0.239 euro/g arabinoxylan. This work demonstrates a two-step alkaline extraction of the arabinoxylans method, as well as their chemical characterization and economic viability analysis, that can be used as a model for industrial scale-up production.
Authors
I am an author on this paper
Click your name to claim this paper and add it to your profile.
Reviews
Recommended
No Data Available