Influence of Feedstock Particle Size from Merbau Wood (Intsia bijuga) on Bio-Oil Production Using a Heat Pipe Fin L-Shaped Condenser in a Pyrolysis Process

Abstract: Bio-oil (liquid smoke) can be produced by condensing pyrolysis vapor. As a raw material, the sawdust from Merbau wood (Intsia bijuga) is heated to generate vapor. These vapors are then condensed in a liquid collecting system (LCS). The particle size of the sawdust influences the heating rate and eventually affects bio-oil production. To increase the yield of bio-oil while decreasing the power consumption of the process, the LCS design must be improved. In the present study, the authors aim to understand the re… Show more

“…The liquid yield of the pyrolysis product depends on the constituent element. The composition and compound of bio-oil were affected by many variables, such as the type of biomass, reaction temperature, vapor resident time, particle size 32) , heating rate, and the feedstock's moisture content. Vapor temperature in the reaction zone also influences the composition of bio-oil.…”

Non-Sweep Gas Pyrolysis with Vapor Heater using “Shorea Pinanga” as a feedstock

“…The liquid yield of the pyrolysis product depends on the constituent element. The composition and compound of bio-oil were affected by many variables, such as the type of biomass, reaction temperature, vapor resident time, particle size 32) , heating rate, and the feedstock's moisture content. Vapor temperature in the reaction zone also influences the composition of bio-oil.…”

Non-Sweep Gas Pyrolysis with Vapor Heater using “Shorea Pinanga” as a feedstock

The Influence of Triple Tube Heat Exchanger as a Liquid Collecting System on Bio-oil Production by Pyrolysis Process