A new approach to improve dissolving pulp properties: spraying cellulase on rewetted pulp at a high fiber consistency
- 145 Downloads
Cellulase treatment is a promising technology that will increase the reactivity of a prehydrolysis kraft (PHK) dissolving pulp. In this study, a cellulase solution was sprayed onto rewetted pulp at a very high consistency (about 60%) to increase its Fock reactivity with high efficiency and low cost. This novel and facile approach is based on favorable cellulose adsorption onto pulp fibers and high cellulose concentration at the reaction sites. Consequently, the enzymatic reactions towards cellulose fibers are more effective, thus a higher enzymatic performance in comparison with the conventional process. With the cellulase spraying technique under the conditions of 60% fiber consistency and 1.5 mg/g cellulase dosage at 12 h, the Fock reactivity of a PHK dissolving pulp increased from 51.22 to 82.64% with acceptable viscosity (469 mL/g). Herein, the proposed cellulase spraying technology is flexible and readily implementable in practice.
KeywordsHigh fiber consistency Cellulase spraying Reactivity Fiber morphologies Dissolving pulp
The authors are grateful for the National Natural Science Foundation of China (Grant No. 31700520), the National key research and development plan (Grant No. 2017YFB0307900), the Natural Science Foundation of Fujian Province (Grant No. 2018J05040), the Distinguished Young Scholars of Fujian Agriculture and Forestry University (No. xjq201729) and the Foundation of Key Laboratory of Pulp and Paper Science and Technology of Ministry of Education/Shandong Province of China (No. KF201625).
- Chen C, Duan C, Li J, Liu Y, Ma X, Zheng L, Stavik J, Ni Y (2016) cellulose (dissolving pulp) manufacturing processes and properties: a mini-review. BioResources 11:5553–5564Google Scholar
- Gehmayr V, Sixta H (2011) Dissolving pulps from enzyme treated kraft pulps for viscose application. Lenzing Ber 89:152–160Google Scholar
- Tian C, Zheng L, Miao Q, Nash C, Cao C, Ni Y (2013) Improvement in the fock test for determining the reactivity of dissolving pulp. Tappi J 12:21–26Google Scholar
- Van Heiningen A (2007) Converting a kraft pulp mill into an integrated forest biorefinery. Pulp Pap Canada 107:38–43Google Scholar