%0 Journal Article
%@ 01652370
%A Naqvi, S.R.
%A Uemura, Y.
%A Yusup, S.B.
%D 2014
%F scholars:5455
%I Elsevier B.V.
%J Journal of Analytical and Applied Pyrolysis
%K Biofuels; Catalysts; Drops; Ketones; Oxygen; Oxygenation; Phenols, Bio oil; Catalytic pyrolysis; Deoxygenations; Paddy husks; Physio-chemical properties, Pyrolysis
%P 57-62
%R 10.1016/j.jaap.2013.12.009
%T Catalytic pyrolysis of paddy husk in a drop type pyrolyzer for bio-oil production: The role of temperature and catalyst
%U https://khub.utp.edu.my/scholars/5455/
%V 106
%X The present research encompasses the impact of temperature and catalyst on the properties of bio-oils and on product yield for the pyrolysis of rice husk. Fast pyrolysis of paddy husks was conducted in a drop type pyrolyzer to study the influence of pyrolysis temperature 350-600 C on products yield and properties. In order to investigate the effect of catalyst, experiments were carried out for a wide range of ratios (0.5-2) of biomass at the pyrolysis temperature of 450 C. The presence of catalyst culminated in less bio-oil yield coupled with higher calorific values and high water contents in comparison to non-catalytic pyrolysis. Furthermore under dehydration and mild pyrolysis conditions the higher amount of catalyst resulted in bio-oil having high water and acidic contents. Oxygen removal degree was used to evaluate the oxygen content transferred from parent biomass to the obtained bio-oil. The ratio 0.5 showed the highest de-oxygenation degree (84.6). The bio-oil produced at this ratio contained high phenol, phenolic compounds and less carbonyl and acidic contents. The bio-oil characterization (with and without catalyst) was evaluated and reported in terms of CHN/O and GC-MS (phenol, phenol derivatives, ketones, furans and aliphatic compounds). © 2013 Elsevier B.V.
%Z cited By 88