Relationship between Lignin Content and the Durability of Wood Pellets Fabricated Using Larix kaempferi C. Sawdust |
Yang, In
(SCION)
Jeong, Hanseob (Division of Wood Chemistry Research, National Institute of Forest Science) Lee, Jae Jung (Division of Wood Chemistry Research, National Institute of Forest Science) Lee, Soo Min (Division of Wood Chemistry Research, National Institute of Forest Science) |
1 | Li, Y., Liu, H. 2000. High-pressure densification of wood residues to form an upgraded fuel. Biomass Bioenergy 19: 177-186. DOI |
2 | Mani, S., Tabil, L.G., Sokhansanj, S. 2006. Effects of compressive force, particle size and moisture content on mechanical properties of biomass pellets from grasses. Biomass Bioenergy 20: 648-654. |
3 | National Institute of Forest Service. 2016. Standards and Quality Grades for Forest Products: Wood pellets. NIFOS No. 2016-6, Seoul, Republic of Korea. |
4 | Wistara, N.J., Rohmatullah, M.A., Febrianto, F., Pari, G., Lee, S.H., Kim, N.H. 2017. Effect of bark content and densification temperature on the properties of oil palm trunk-based pellets. Journal of the Korean Wood Science and Technology 45(6): 671-681. DOI |
5 | Obernberger, I., Thek, G. 2004. Physical characterization and chemical composition of densified biomass fuels with regard to their combustion behaviour. Biomass Bioenergy 27: 653-669. DOI |
6 | Kaliyan, N., Morey, R.V. 2008. Binding mechanisms of corn stover and switch grass in briquettes and pellets. In: Proceeding of 2008 ASABE Annual International Meeting: 1-23. |
7 | Rabemanolontsoa, H., Ayada, S., Saka, S. 2011. Quantitative method applicable for various biomass species to determine their chemical composition. Biomass and Bioenergy 35(11): 4630-4635. DOI |
8 | Sannigrahi, P., Ragauskas, A.J., Miller, S.J. 2008. Effects of two-stage dilute acid pretreatment on the structure and composition of lignin and cellulose in Loblolly pine. Bioenergy Research 1: 205-214. DOI |
9 | Sikkema, R., Steiner, M., Junginger, M., Hiegl, W., Hansen, M.T., Faaij, A. 2011. The European wood pellet markets: current status and prospects for 2020. Biofuels Bioproducts and Biorefining 5(3): 250-278. DOI |
10 | Ahn, B.J., Chang, H.S., Lee, S.M., Choi, D.H., Cho, S.T., Han, G.S., Yang, I. 2014. Effect of binders on the durability of wood pellets fabricated from Larix kaemferi C. and Liriodendron tulipifera L. sawdust. Renewable Energy 62: 18-23. DOI |
11 | Ahn, B.J., Chang, H., Cho, S.H., Han, G., Yang, I. 2013. Effect of the addition of binders on the fuel characterisitics of wood pellets. Journal of the Korean Wood Science and Technology 41(6): 475-489. DOI |
12 | American Society for Testing and Materials.2005. Standard test methods for direct moisture content measurement of wood and wood-base materials. In: Annual Book of ASTM Standards, ASTM International, West Conshohocken, PA, ASTM D 4442-07. |
13 | American Society for Testing and Materials.2005. Standard Test Method for Ash in Biomass. In: Annual Book of ASTM Standards, ASTM International, West Conshohocken, PA, ASTM E 1755-01. |
14 | Bergstrom, D., Israelsson, S., Ohman, M., Dahlqvist, S., Gref, R., Boman, C., Wasterlund, I. 2008. Effect of raw material particle size distribution on the characteristics of Scot pine sawdust fuel pellets. Fuel Processing Technology 89: 1324-1329. DOI |
15 | Bradfield, J., Levi, M.P. 1984. Effect of species and wood to bark ratio on pelleting of southern woods. Forest Products Journal 34: 61-73. |
16 | Briggs, J.L., Maier, D.E., Watkins, B.A., Behnke, K.C. 1999. Effects of ingredients and processing parameters on pellet quality. Poultry Science 78: 1464-1471. DOI |
17 | [FBEA] Forest Biomass Energy Association. 2018. The Statistical data of wood pellet import. http://www.biomassenergy.kr/ [accessed Jan. 14, 2019] |
18 | Tarasov, D., Shahi, C., Leitch, M. 2013. Effect of additives on wood pellet physical and thermal characteristics: A review. International Scholarly Research Notices - Forestry: 1-6. |
19 | Sjostrom, E. 1983. Reaction of carbohydrates. In: Wood Chemistry: fundamentals and application, Arlington, Academic press, Inc.: 39-49. |
20 | Stakl, M., Granstrom, K., Berghel, J., Renstorm, R. 2004. Industrial process for biomass drying and their effects on the quality properties of wood pellets. Biomass Bioenergy 27: 621-628. DOI |
21 | White, R.H. 1987. Effect of lignin content and extractives on the higher heating value of wood. Wood and Fiber Science 19(4): 446-452. |
22 | Wilson, T.O. 2010. Factors affecting wood pellet durability. M.S. Thesis, State College: Penn State University. |
23 | Yang, I., Chae, HG., Han, GS. 2017a. Effect of bark and drying waste liquor of Larix kaempferi used as an additive on the fuel characteristics of wood pellet fabricated with rigia pine and Quercus mongolica Sawdust. Journal of the Korean Wood Science and Technology 45(3): 258-267. DOI |
24 | Yang, I., Kang, S.M., Kim, Y.H., Han, G.S. 2018. Preliminary survey for setting evaluation standards of wood pellet safety. Journal of the Korean Wood Science and Technology 46(5): 541-552. DOI |
25 | Yang, I., Kim, SH., Han, GS. 2017b. Effect of moisture content of sawdust and length to diameter ratio of a hole in flat-die pelletizer on the fuel characteristics of wood pellets produced with Quercus mongolica, Pinus densiflora, Pinus rigida and Larix kaempferi. Journal of the Korean Wood Science and Technology 45(4): 382-398. DOI |
26 | Kang S.B., Choi, K.S., Lee, H.H., Han, GS. 2018. Analysis of Emission Characteristics and Emission Factors of Carbon Monoxide and Nitrogen Oxide Emitted from Wood Pellet Combustion in Industrial Wood Pellet Boilers Supplied According to the Subsidy Program of Korea Forest Service. Journal of the Korean Wood Science and Technology 46(5): 597-609. DOI |
27 | Min, C.H., Um, B.H. 2017. Effect of process parameters and Kraft lignin additive on the mechanical properties of Miscanthus pellets. Journal of the Korean Wood Science and Technology 45(6): 703-719. DOI |
28 | Gahan, P.B. 1984. Plant histochemistry and cytochemistry - an introduction. Arlington: Academic Press, Inc.: 301. |
29 | Hill, B., Pulkinen, D.A. 1988. A study of factors affecting pellet durability and pelleting efficiency in the production of dehydrated alfafa. Saskatchewan Dehydrators Association: 25. |
30 | Kaliyan, N., Morey, R.V. 2009. Factors affecting strength and durability of densified biomass products. Biomass Bioenergy 33: 337-359. DOI |
31 | Back, E.L. 1987. The bonding mechanism in hardboard manufacture. Holzforschung 41(4): 247-258. DOI |
32 | Lee, S.M., Ahn, B.J., Choi, D.H., Han, G.S., Jeong, H.S., Ahn, S.H., Yang, I. 2013. Effects of densification variables on the durability of wood pellets fabricated with Larix kaempferi C. and Liriodendron tulipifera L. sawdust. Biomass Bioenergy 48: 1-9. DOI |
33 | Lee. S.M., Lee, A.R., Ahn, B.J., Kim, Y.S., Yang, I., Cho, S.T. 2013. Effect of diluted SO4 and NaOH treatment on chemical composition of larch and yellow poplar. Journal of the Korean Wood Science and Technology 41(4): 358-373. DOI |
34 | Lehtikangas, P. 2001. Quality properties of pelletised sawdust, logging residues and bark. Biomass Bioenergy 20: 351-60. DOI |