Laboratory Estimation of Bio-crude Production Potential from Selected Agricultural Residues
K Nithiya, P Subramanian, S Karthikeyan… - Journal of …, 2019 - indianjournals.com
Journal of Agricultural Engineering, 2019•indianjournals.com
Pyrolysis is a better option for effective utilisation of surplus biomass and its utilization to
liquid fuels. In this study, the technique of fast pyrolysis was adopted for the production of bio-
crude from selected biomaterials viz. rice husk, coir pith, saw dust, cotton stalk, red gram
stalk, groundnut shell and maize cob. Bio-crude production was done in a labscale fixed-
bed pyrolytic system at six different temperatures (350° C, 400° C, 450° C, 500° C, 550° C
and 600° C). Bio-crude yield was obtained in the range of 28% to 52%, and groundnut shell …
liquid fuels. In this study, the technique of fast pyrolysis was adopted for the production of bio-
crude from selected biomaterials viz. rice husk, coir pith, saw dust, cotton stalk, red gram
stalk, groundnut shell and maize cob. Bio-crude production was done in a labscale fixed-
bed pyrolytic system at six different temperatures (350° C, 400° C, 450° C, 500° C, 550° C
and 600° C). Bio-crude yield was obtained in the range of 28% to 52%, and groundnut shell …
Pyrolysis is a better option for effective utilisation of surplus biomass and its utilization to liquid fuels. In this study, the technique of fast pyrolysis was adopted for the production of bio-crude from selected biomaterials viz. rice husk, coir pith, saw dust, cotton stalk, red gram stalk, groundnut shell and maize cob. Bio-crude production was done in a labscale fixed-bed pyrolytic system at six different temperatures (350°C, 400°C, 450°C, 500°C, 550°C and 600°C). Bio-crude yield was obtained in the range of 28% to 52%, and groundnut shell pyrolyzed at 550°C gave maximum percentage of bio-crude. The viscosity, pH, density, specific gravity, calorific value, flash point and fire point of biocrudes were evaluated using standard methods.
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