Abstract:
The production of biochar, a carbon-rich material derived from biomass pyrolysis, has
gained significant attention due to its potential applications in soil improvement, carbon
sequestration, and renewable energy. This research presents a preliminary study on the
co-production of biochar and wood vinegar from various biomass sources, namely rice
husk, bamboo, and corn cob. Biochar was produced by slow pyrolysis at around a
temperature of 310-330°C in an inert atmosphere with a residence time of 45 minutes in a
lab-scale reactor. Thermal decomposition behavior obtained from Thermogravimetric
Analysis (TGA) was the basis for selecting suitable pyrolysis temperatures. Yields of
biochar, wood vinegar, and non-condensible gases were determined and the resulting
biochar samples were subjected to characterization using Scanning Electron Microscopy
(SEM) and TGA. The SEM analysis provided insights into the surface morphology and
microstructure of the biochar samples, while elemental composition analysis helped to
identify the presence of Carbon, Oxygen, and other elements. TGA evaluated the
resistance of produced biochar to degradation under high temperatures. Further,
calculated Acetic acid concentration gives the quality of the wood vinegar produced. The
findings of this study revealed that the choice of biomass source significantly affects the
properties of produced biochar. Overall, this research contributes to the understanding of
the slow pyrolysis process for biochar and wood vinegar co-production and provides
valuable insights into the properties and potential applications of biochar and wood
vinegar.