Journal of Forest and Environmental Science

  • 제26권2호
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  • Pages.75-82
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  • 2010
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  • 2288-9744(pISSN)
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  • 2288-9752(eISSN)
강원대학교 산림과학연구소 (Institute of Forest Science, kangwon National University)
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Characterization of Biometry and Chemical and Morphological Properties of Fibers from Bagasse, Corn, Sunflower, Rice, and Rapeseed Residues in Iran

  • 투고 : 2010.08.01
  • 심사 : 2010.09.30
  • 발행 : 2010.08.31
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초록

The biometry, morphological properties and chemical composition of bagasse, corn, sunflower, rice, and rapeseed residues plants were analyzed. The results revealed differences in biometry properties and chemical composition of the different types of agricultural resides investigated. The greatest proportion of fiber length (1.32 mm) and cellulose (55.56%) was found in residues of bagasse plants, with a low ash (1.78%) and lignin (20.5%). The lignin of all types of agricultural resides was less than hardwood and softwood. In addition, the rice and rapeseed residues plants had highest amount of ash and extractive component. The slenderness and flexibility ratios of the all types of agricultural resides fibers were similar to some of hardwood and softwood species.

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참고문헌

  1. Abdul Khalil, H.P.S., Siti Alwani, M., and Mohd Omar, A.K. 2006. Chemical composition, anatomy, lignin distribution, and cell wall structure of Malaysian plant waste fibers. Bioresource 1(2):220-232.
  2. Akkayan, S.C. 1983. Researches on cellulose mixtures obtained from Pinus sylvestris (P. sylvestris), Pinus brutia (P. brutia) and Oriental Beech (F. orientalis), Populus euroamericana (P. euroamericana I-214), Eucalyptus (E. camaldulensis) wood, their properties and their usage possibilities in paper industry. Istanbul Univ. For. Faculty Publi. Ser. A, 33: 104-132.
  3. Anonymous, 1992. Tappi test Methods 1992-1993. Tappi press Atlanta, GA, USA.
  4. Bektas, I., Tutus, A., and Eroglu, H. 1999. A study of the suitability of Calabrian pine (Pinus Brutiaten.) for pulp and paper manufacture. Turk. J. Agric. For., 23: 589-599.
  5. Bostanci, S., 1976. Chemical components of Turkey picea orientalis and possibilities of using mechanical wood pulp obtained from turkey picea orientalis and normaniana chips. Ph.D Thesis, Karadeniz Technical University
  6. Eroglu, H., 1980. Investigating possibilities of obtaining wood pulp from wheat straw by O2-naoh method. Ph.D Thesis, Karadeniz Technical University.
  7. FAO. 1973. Guia para planificar empresas y fabricas de pasta y papel. 425 p. FAO, Roma, Italia.
  8. Fiber Futures. 2007. Leftover Straw Gets New Life. Available at http://www.sustainable-future.org/futurefibers/solutions.html#Anchor-Leftove-10496.
  9. Franklin, G.L. 1954. A rapid method for softening wood for anatomical analysis. Tropical Woods 88: 35-36.
  10. Garay, M.R. 2002a. Caracterizacion de propiedades fisico-mecanicas de Salix sp. p. 222-240. In M. Aalos (ed.) Silvicultura y produccion de sauce mimbre. INFOR, Santiago, Chile.
  11. Garay, M.R. 2002b. Identificacion de productos de control fitosanitario de sauce mimbre. p. 241-252. In M. Abalos (ed.) Silvicultura y produccion de sauce mimbre. INFOR, Santiago, Chile.
  12. Garay, M.R., Rallo, M., Carmona, R,. Araya, J. 2009. Characterization of anatomical, Chemical, and Biodegradable properties of fibers from corn, wheat, and rice residues. Chilean Journal of Agticultural Research 69(3):406-415.
  13. Hus, S., Tank, T., and Goksal, E. 1975. Considering Eucalyptus (E. camaldulensis Dehnh). Wood Which Grow in Turkey (in Tarsus-Karabacak) Morphologically and Opportunities for Evaluating Semi Chemical Cellulose in Paper Industry. Tubitak Publications, USA.
  14. Istas, J.R., Heremans, R., and Roekelboom, E.L. 1954. Caracteres Generaux De Bois Feuillus Du Congo Belge En Relation Avec Leur Utilization Dans I 'industrie Des Pates A Papier: Etude Detaillee De Quelques Essences. Gembloux: INEAC (Serie Technique, No. 43).
  15. Liao, P.Y., Hu, ZL., Ji, W.L., Wang, L.Q., and Quan J.Y. 1981. Studies On the chemical components, fiber dimensions and pulping properties of sixteen species of fast growing wood. J. Nanjing Technol. College For. Prod., 4: 16-25.
  16. Nieschlag, H. J., Nelson, G. H., Wolff, J. A., and Perdue, R. E. (1960). "A search for new fiber crops," Tappi, 43 (3), 193-194.
  17. Panshin A., Dezeeuw C., 1980. TextBook of wood technology. 4th edition, McGraw-Hill, New York.
  18. Potivarai, P. 2005. Utilization of rice husk in polymer systems. The First Workshop on the Utilization of Rice Husk and Rice Husk Silica. Chulalongkorn University, Faculty of Science, Thailand.
  19. Reddy, N., and Yang, Y. 2005. Biofibers from agricultural by products for industrial applications," Trends in Biotechnology 23 (1), 22-27. https://doi.org/10.1016/j.tibtech.2004.11.002
  20. Rowell, R. M., Han, J. S., and Rowell, J. S. 2000. "Characterization and factors effecting fiber properties," Natural Polymers and Agrofibers Composites. Preparation, Properties and Applications, F. Elisabete, L. L. Alcides, and H. C. Mattoso (eds.), Emrapa Instrumentacao Agropecuaria, Brasil, 115-134.
  21. Rowell, M. R., and Young, A.1997. "Paper and composites from agro-based Resources." Lewis Publishers/CRC Press, New York.
  22. Saavedra, C. 2004. Determinacion de peso especifico y de algunas propiedades isometricas en Eucalyptus globulus L. como materia prima pulpable. 90 p. Memoria Ingeniero de la Madera. Universidad de Chile, Facultad de Ciencias Forestales, Santiago, Chile.
  23. Saheb, N. D., and Jog, J. P. 1999. Natural fiber polymer composites: A review, Adv. Polym. Tech. 18: 351-363. https://doi.org/10.1002/(SICI)1098-2329(199924)18:4<351::AID-ADV6>3.0.CO;2-X
  24. Talaeipour, M., Hemmasi, A. H., Ebrahimpour Kasmani, J., Mirshokraie, A., and Khademieslam, H., 2010. Effects of Fungal Treatment on Structural and Chemical Features of Hornbeam Chips. BioRrsources 5: 477-487.
  25. Tank, T., 1978. Evaluating Beech and Hornbeam Species in Turkey by Natural Sulfate Semi Chemical (NSSC) Method. Istanbul University, Istanbul.
  26. Tank, T., 1980. Fiber and Cellulose Technology. Istanbul University, Forest Faculty Publications, Istanbul.
  27. Tsoumis, G. (1991). Science and technology of wood: structure, properties and utilization, Van Nostrand Reinhold, New York.
  28. Xu, F., Zhong, X.C., Sun, R.C., Lu, Q. 2006. Anatomy, ultra structure, and lignin distribution in cell wall of Caragana korshinskii. Industrial Crops and Production 24: 186-193. https://doi.org/10.1016/j.indcrop.2006.04.002