Abstract
We aimed at producing sodium carboxymethylcellulose (CMC) from waste paper cellulose. For this etherification, the raw material was waste paper, the cellulose was initially alkalized with NaOH, the etherifying agent was sodium chloroacetate, and the reaction medium was water or ethanol. The method provided by us, i e, a method for preparing CMC from waste paper, was environment-friendly, could be easily implemented, and could be conveniently applied to make waste paper efficiently used with high profit, and to expand the range of usable raw materials for CMC production. We successfully synthesized CMC and prepared CMC plastic membrane. This practice changes waste into valuables, which is beneficial to our living environment. For preparation of CMC, one of the crucial factors is appropriate pretreatment of the cellulose from waste paper. The pretreatment was done with a self-built hydrolysis method. We experimentally examined the effects of the mass ratios of reactants, reaction temperature, time, and reaction environment of homogeneous or heterogeneous on CMC yield. The innovative points of this research could be stated as follows: the reaction activity of cellulose was improved by pre-hydrolysis; synthesizing CMC with cellulose from waste paper changes waste into valuables is beneficial to our living environment; and a freezing treatment for the cellulose-alkali mixture was innovatively added. The effects were exhibited by a desired final conversion efficiency.
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Funded by the Ningxia Natural Science Fund (2020A0661), the Lanzhou Science and Technology Bureau Project (2019-RC-104), the School-enterprise Cooperation Project (2019640001000097), the Scientific Research Project of Key Laboratory Project of the National People’s Commission (15-150070 (69#)), the University’s Scientific Research Project (2016-HG-KY-04), and the University Student Innovation Projects (2021-XJ-HG-003, 2021-XJ-HG-027)
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He, J., Wang, D., Long, L. et al. Preparation of Carboxymethylcellulose from Waste Paper. J. Wuhan Univ. Technol.-Mat. Sci. Edit. 36, 562–568 (2021). https://doi.org/10.1007/s11595-021-2445-3
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DOI: https://doi.org/10.1007/s11595-021-2445-3