Abstract
Hemicelluloses were extracted from a softwood acid sulfite pulp in a three-step procedure. Further delignification step resulted in a holocellulose pulp containing only 1.7 wt.% of the lignin left. Cold caustic extraction (CCE) with 18 wt.% NaOH at 60 °C for 1 h was performed to solubilize hemicelluloses of the holocellulose. An unbleached cellulose pulp was then obtained 97% pure, which indicates that 89% of the hemicelluloses were removed. After purification, extraction yields between 1.1 wt.% and 9.5 wt.% were obtained from the delignified pulp and the hemicelluloses’ chemical compositions and structures were investigated by 1H, 13C nuclear magnetic resonance spectroscopy (NMR) and two-dimensional NMR by correlation spectroscopy (2D-COSY) and proton-detected heteronuclear single-quantum correlation (2D-HSQC), high-performance anion-exchange chromatography coupled with a pulsed amperometry detector (HPAEC-PAD), size-exclusion chromatography coupled with a refractive index detector (SEC-RI) and thermogravimetric analyses (TGA). Hemicelluloses were obtained with a purity of 96%, with short cellulosic chains as the only residue. Sulfite pulping modified the hemicelluloses’ structure, and it was found that two types of hemicelluloses were isolated, glucomannans, predominant at 67%, and methylglucuronoxylans. Finally, alkali-soluble hemicelluloses displayed relatively narrow size distributions and low molar masses, Mw varying between 18,900 and 30,000 g/mol after acid sulfite pulping.
Highlights
Sustainable development, climate change and environmental health issues are today the subjects of big concern [1]
The initial pulp provided by RYAM is obtained by the acid sulfite pulping process from softwood maritime pine
The modified three-step procedure commonly used on wood materials consists in sodium chlorite delignification, cold caustic extraction using 18 wt.% NaOH and purification by ethanol precipitation
Summary
Sustainable development, climate change and environmental health issues are today the subjects of big concern [1]. Lignocellulosic biomass is the most abundant on the Earth and offers a significant amount of carbon raw materials, such as cellulose, hemicelluloses, lignin and many other derivatives [2]. Cellulose-based products are mainly obtained from wood and plant chemical processes (70% of the production) which are pH-dependent with basic kraft and acid sulfite pulping [3]. Cellulosic pulps are mostly intended for the paper industry, and for dissolving pulp industries, including viscose, cellulose acetate, cellulose nitrate or cellulose ether applications. Those cellulose-derived products require high purity of the cellulose by removing the remaining lignin and hemicellulose side products [4]
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