Carbonization of Coconut Shell Biomass in a Downdraft Reactor: Effect of Temperature on the Charcoal Properties

Abstract: Considering the value of coconut shell biomass as renewable fuels in homes and commercial industries, its effectiveness as a biomass resource has been overlooked by our rural citizens and researchers. Carbonization experiments of coconut shell biomass were conducted in a downdraft carbonization reactor (750 mm height and 67 mm diameter) to determine the effect of temperature (250 to 600 °C, in 50 °C intervals) on the charcoal properties. This was to address the problems of traditional charcoal production metho… Show more

“…This resulted from the biomass being exposed to heat during the thermochemical conversion process that created charcoal 47) . As a result, raising the temperature increases the energy content of charcoal 48) . The relationship between the moisture and ash content 33) of the recovered coconut shell charcoal and the carbonization temperature is shown in Figure 5.…”

Assessing the Technical and Environmental Potential of Coconut Shell Biomass: Experimental Study through Pyrolysis and Gasification

“…This resulted from the biomass being exposed to heat during the thermochemical conversion process that created charcoal 47) . As a result, raising the temperature increases the energy content of charcoal 48) . The relationship between the moisture and ash content 33) of the recovered coconut shell charcoal and the carbonization temperature is shown in Figure 5.…”

Assessing the Technical and Environmental Potential of Coconut Shell Biomass: Experimental Study through Pyrolysis and Gasification

Environment Friendly Production of Coconut Shell Charcoal Through Pyrolysis

A strategic approach towards the synthesis of jackfruit peel-based activated carbon: assessment of different activating agents and operating conditions