10.5071/19THEUBCE2011-VP3.2.11
Nomura, T.
T.
Nomura
Gensai, H.
H.
Gensai
Watada, H.
H.
Watada
Sano, T.
T.
Sano
Kamikawa, D.
D.
Kamikawa
Kuroda, K.
K.
Kuroda
Kubojima, Y.
Y.
Kubojima
Furusawa, H.
H.
Furusawa
Miura, S.
S.
Miura
Kaneko, S.
S.
Kaneko
Ohara, S.
S.
Ohara
Yoshida, T.
T.
Yoshida
Fundamental Study on Production of "Hyper Wood Pellet " (3) Upgraded Pellet Making by Torrefaction of Japanese Wood Pellets
ETA-Florence Renewable Energies
2011
Conference paper
Biomass
2011
en
978-88-89407-55-4
3 Pages
application/pdf
Proceedings of the 19th European Biomass Conference and Exhibition, 6-10 June 2011, pp. 2019-2021
Upgraded wood pellets (Hyper wood pellets) were produced and evaluated by torrefaction of wood pellets. In this study, conventional wood pellets were initially prepared and subsequently torrefied on a laboratory and then larger scale. During the laboratory scale production, a few kilograms of pellets from wooden parts of Japanese cedar (Cryptomeria japonica) and Japanese oak (Konara, Quercus serrata) trees were heat treated in an inert gas oven. For the Japanese cedar, the calorific values were improved by heat treatment up to 260oC. By heat treatment at 240oC, the upgrade ratio of HHV was nearly 30% and the energy yield was 97%. For the Japanese oak, the calorific values were improved by heat treatment up to 320oC. By heat treatment at 280oC, the upgrade ratio of HHV exceeded 30% and the energy yield was 84%. On a larger scale, a conventional charcoal oven was modified for Hyper wood pellet production, meaning Hyper wood pellet with 25 MJ of calorific value were produced during heat treatment at 350oC.
Proceedings of the 19th European Biomass Conference and Exhibition, 6-10 June 2011, Berlin, Germany, pp. 2019-2021