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The Analysis of Manufactured Cellulose Acetate Using Old Newsprint by Acetosolv Pulping  

임부국 (경북대학교 임산공학과)
이종윤 (경북대학교 임산공학과)
양재경 (경상대학교 산림과학부)
장준복 (중부대학교 생명과학부)
Publication Information
Journal of Korea Technical Association of The Pulp and Paper Industry / v.35, no.1, 2003 , pp. 41-47 More about this Journal
Abstract
Recently, interest in utilization plan of recycling paper have been enhanced. Therefore, this research aimed to develop the manufacture process of cellulose acetate using old newsprint by acetosolv pulping process. And the manufactured cellulose acetate was also analyzed, especially based on chemical properties. The summarized results in this research were as follows; Reaction time, kind and amount of catalyst, and ratio of liquor to material were varied during acetosolv pulping process of old newsprint. Ratio of liquor to material did not give the significant difference in reaction product. Delignification rate was increased with increasing reaction time during acetosolv pulping, but yield and degree of substitution decreased with increasing reaction time. Sulfuric acid are better catalyst than hydrochloric acid in acetosolv pulping process for old newsprint, and optimal addition amount of catalyst was 1% based on reaction material. Delignification, yield, and degree of substitution were influenced by the catalyst and reaction time. Under pulping condition of $120^{\circ}C$ in 1/12 liquor to material ratio and 60min, degree of substitution was about 0.7. The acetylation reaction was not completely caused by these reaction condition. The examination of the FT-IR spectra revealed that absorption band(1200$\textrm{cm}^{-2}$, 1,750$\textrm{cm}^{-1}$) caused by carbonyl group were confirmed.
Keywords
Old newsprint; Cellulose acetate; Acetosolv pulping; Delignification; degree of substitution;
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  • Reference
1 M. Yoshioka, K. Okajima, T. Miyazaki and N. Shiraishi, Plasticization of Cellulose Derivatives by Reactive Plasdcizers II, J. Wood Science 46: 22-31(2000)   DOI   ScienceOn
2 G. C. Goyal, J. H. Lora, and E. K. Pye, Autocatalyzed organosolv pulping of hardwoods, Tappi J. 75(2): 110-116(1992)
3 左野嘉拓,常壓下におけるソルバソトパルプ化, パ技協誌.45(5):525-539(1991)
4 T. Kondo, A. Isogai, A. Ishizu, and J. Nakano, Preparation of Completely Allylated and Methallylated Cellulose from Methylcellulose and Cellulose Acetate, Journal of Applied Polymer Science 34: 55-63(1987)   DOI   ScienceOn
5 D. fengel, G. Wegener, Wood-chemistry UItra-structure reactions:496-502(1984)
6 이호철, 임부국, 양재경, 이종윤, 폐지를 이용한 과실용 무공해 내포장재 개발, 한국폐기물학회지 15(5): 478-484(1998)
7 엄태진,양재경,목재부후균에 의한 재생 pulp의표백 및 개질, 펄프종이기술25(4):53-59(1993)
8 양재경, 임부국, 이종윤, 목질계 biomass의 변환이용-기계펄프로부터 용해용 펄프의 제조-,펄프종이기술29(3):51-59(1997)
9 石川久雄,沖妙,山下謙三,ブナ木松の亞硫酸蒸解と酢化と關係(第1報)-ブナ木松の亞硫酸蒸解と亞硫酸パルプ酢化, Mokuzai cakkaishi 5(6):207-212(1959)
10 A. A. S. Curvelo, J. Alaburda, V. R. Botaro, and J. R. Lechat, Acetosolv Pulping of Sugar Cane Bagasse, Tappi J. No. 11, pp. 217-220(1990)
11 常壓下におけるソルバソトパルプ化 /
[ 左野嘉拓 ] / 紙パ技協誌
12 A. Hebeish, J. T. Guthrie, The Chemistry and Technology of Cellulosic Copolymers, Springer-Verlag, 202-206(1981)
13 D. Fengel and G. Wegener, Wood, De Gmyter :106-117(1984)
14 Y. Zhang, J. Li, A. Chen and Y. Huang, Biodegradadon of Cellulose Derivative/ Polycaprolactone Belnds, Cellulose Chemistry and Technology 34:51-62(2000)
15 TAPPI, Ash in paper and paper board, Tappi Standard Test Method:T413om-85(1992)
16 J. Gullichsen and H. paulapuro, Chemical pulping, TAPPI press, 411-412(1999)
17 Bochardt, L. G., and Piper, C. V., A Gas Chromatographic Method for Carbohydrates as Alditol-Acetate. Tappi J. 53(2): 257-260(1970)
18 Casey, J. P., Pulp and Paper III, Wiley inter science: 1903-1094(1981)
19 박상진, 이종윤, 조남석, 조병묵, 목재과학실험서, 광일문화사:480-481(1993)
20 민두식, 이종윤, 윤병호, 목재화학, 선진출판사:130-133(1981)
21 ブナ木粉の亞硫酸蒸解と酢化と關係(第1報) - ブナ木粉の亞硫酸蒸解と亞硫酸パルプ酢化 /
[ 石川久雄;충妙;山下謙三 ] / Mokuzai Gakkaishi