References

Akin, D.E., 2010. Flax-Structure Chemistry Retting and Processing. In: Industrial Applications of Natural Fibres-Structure Properties and Technical Applications, Muessig, J. (Ed.). John Wiley and Sons, Oxford, England, UK., ISBN:978-0-470-69508-1, pp: 89-108.

Alamsyah, R., E.H. Loebis, E. Susanto, L. Junaidi and N.C. Siregar, 2015. An Experimental study on synthetic gas (Syngas) production through gasification of indonesian biomass pellet. Energy Procedia, 65: 292-299.
CrossRef  |  Direct Link  |  

Anonymous, 1993. Ash in wood, pulp, paper and Paperboard: Combustion at 525°C. TAPPI Testing Procedures (TAPPI T211 om-93). USA.

Anonymous, 1993. Technical Association of the Pulp and Paper Industry. TAPPI Testing Procedures (TAPPI T203 om-93). USA.

Anonymous, 1997. Preparation of wood for chemical analysis, test method T 264 cm-07. TAPPI Testing Procedures (TAPPI T264 cm-97). USA.

Anonymous, 1999. Water solubility of wood and pulp. TAPPI Testing Procedures (TAPPI T207-cm 99). USA.

Anonymous, 2015. Information of wood pellet testing. Energy Technology Laboratory, Thailand Institute of Scientific and Technology Research, Thailand.

Bergström, D., S. Israelsson, M. Öhman, S.A. Dahlqvist, R. Gref, C. Boman and I. Wästerlund, 2008. Effects of raw material particle size distribution on the characteristics of scots pine sawdust fuel pellets. Fuel Process. Technol., 89: 1324-1329.
CrossRef  |  Direct Link  |  

Browing, B.L., 1963. Method in Wood Chemistry. Interscience Publishers, New York, USA., pp: 389-407.

Elsaid, A., M. Dawood, R. Seracino and C. Bobko, 2011. Mechanical properties of kenaf fiber reinforced concrete. Constr. Build. Mater., 25: 1991-2001.
CrossRef  |  

Fernando, A.L., 2013. Environmental Aspects of Kenaf Production and Use. In: Kenaf: A Multi-Purpose Crop for Several Industrial Applications, Andrea, M. and E. Alexopoulou, (Eds.). Springer, London, England, ISBN:978-1-4471-5066-4, pp: 83-104.

Giacomo, D.G. and L. Taglieri, 2009. Renewable energy benefits with conversion of woody residues to pellets. Energy, 34: 724-731.
Direct Link  |  

Hoadley, R.B., 2000. Understanding Wood: A Craftmans Guide to Wood Technology. Taunton Press, Newtown, Connecticut, USA., Pages: 280.

Liu, Z., B. Fei, Z. Jiang, Z. Cai and Y. Yu, 2013. The properties of pellets from mixing bamboo and rice straw. Renewable Energy, 55: 1-5.
Direct Link  |  

Sengloung, T., 2009. Phenological characteristics and fibre properties of thai hemp (Cannabis sativa L.). PhD Thesis, Kasetsart University, Bangkok, Thailand.

Sengloung, T., L. Kaveeta and J. Mussig, 2008. Physical properties of traditional thai hemp fiber (Cannabis sativa L.). J. Ind. Hemp, 13: 20-36.
Direct Link  |  

Stahl, M. and J. Berghel, 2011. Energy efficient pilot-scale production of wood fuel pellets made from a raw material mix including sawdust and rapeseed cake. Biomass Bioenergy, 35: 4849-4854.
Direct Link  |  

TAPPI, 2002. Solvent Extractives of Wood and Pulp. TAPPI Press, Atlanta, GA., USA.

Thai Industrial Standard, 2004. Flat press particleboards TIS 876-2547. Thai Industrial Standard, Bangkok, Thailand. http://www2.rid.go.th/research/vijais/moa/fulltext/TIS876-2547.pdf

Toscano, G., G. Riva, E.F. Pedretti, F. Corinaldesi and C. Mengarelli et al., 2013. Investigation on wood pellet quality and relationship between ash content and the most important chemical elements. Biomass Bioenergy, 56: 317-322.
Direct Link  |  

Vinterback, J., 2004. Pellets 2002: The first world conference on pellets. Biomass Bioenergy, 27: 513-520.
Direct Link  |