Effect of soda-ethanol cooking with caustic extraction prior to bleaching on the properties of hardwood pulp

• Published in: Bioresources Vol. 17; no. 2; pp. 2884 - 2895
• Main Authors: Lee, Tai-Ju, Gwon, Jaegyoung, Youe, Won-Jae, Oh, Yu-jin, Ahn, Byeong-Jun, Seo, Jin-Ho
• Format: Journal Article
• Language: English
• Published: Raleigh North Carolina State University 01.05.2022
• Subjects: Alcohol; Alkalies; Bleaching; Cellulose; Chlorine; Chlorine dioxide; Cooking; Distillation; Drinking water; Energy consumption; Ethanol; Hardwoods; Hemicellulose; Hydrogen peroxide; Kraft pulp; Lignin; Liquor; Organic solvents; Pollutants; Pollution control; Pulp; Pulping; Slurries; Sodium hydroxide; Surface tension; Xylan; United States > US; South Korea; Sweden
• ISSN: 1930-2126; 1930-2126
• DOI: 10.15376/biores.17.2.2884-2895

Pulping using organic solvents is an alternative to kraft pulping and can reduce environmental pollutants. Ethanol is a potential cooking liquor, as it improves the penetration of the cooking chemical due to its low surface tension, and it can be recovered via distillation. The chemical structure and alpha-cellulose content need to be controlled during cooking and bleaching processes to prepare dissolving pulp. Therefore, the effect of ethanol on the cooking efficiency and caustic extraction prior to sequential bleaching on the alpha-cellulose content of the pulp were analyzed. The cooking yield was 50.2% in cooking liquor with 20% NaOH and 50% ethanol at 160 °C for 120 min. The delignification extent was 83.2%, which was better than that of kraft cooking. Caustic extraction was effective in removing the hemicellulose content, and the removal rate of xylan was 61.1% with 10% NaOH added to 1.5% pulp slurry and reacted at 60 °C for 90 min. The alpha-cellulose of bleached pulp could be improved to over 94% by a sequential bleaching process consisting of chlorine dioxide, sodium hydroxide, and hydrogen peroxide.