%0 Journal Article
%@ 22894659
%A Sulaiman, S.A.
%A Inayat, M.
%A Basri, H.
%A Guangul, F.M.
%A Atnaw, S.M.
%D 2016
%F scholars:7634
%I Universiti Malaysia Pahang
%J Journal of Mechanical Engineering and Sciences
%N 2
%P 2176-2186
%R 10.15282/jmes.10.2.2016.20.0204
%T Effect of blending ratio on temperature profile and syngas composition of woody biomass co-gasification
%U https://khub.utp.edu.my/scholars/7634/
%V 10
%X Co-gasification of biomass is beneficial as only relying on one type of biomass causes interruption in gasification if the feedstock supply is disrupted for any reason. Therefore, co-gasification of different biomass materials is a potential way to overcome the problem. In this work, co-gasification of wood chips (WC) and coconut fronds (CF) was carried out in a downdraft gasifier at 400 L/min airflow rate. Three blends of WC/CF of 70:30, 50:50 and 30:70 ratios were considered with a maximum particle size of 2.5-3.0 cm. The aim of this study was to investigate the effect of blending ratio on the temperature profile and syngas composition produced by the co-gasification of WC/CF blended feedstock. The results show that the temperature profile and syngas composition of 70:30 WC/CF blend was comparatively better. The average syngas composition of 70:30 WC/CF blend during steady state co-gasification operation was 20, 12 and 3 for CO, H2 and CH4 respectively. Similarly, the average syngas composition of 50:50 WC/CF blend was around 21, 8 and 0.7 for CO, H2, and CH4 respectively. While the 30:70 WC/CF blend encountered with bridging problem due to fibrous and low density CF. No more than 50 of fibrous and low density feedstock like CF is recommended in a blend for stable and progressive co-gasification. © Universiti Malaysia Pahang.
%Z cited By 27