Author(s)

Davy Fiwa Kaoke^1,2*, Yann Le Brech³, Emmanuel Talla¹, Anthony Dufour³, Patrick Mountapmbeme Kouotou^2,4*

¹Department of Chemical Engineering, School of Chemical Engineering and Mineral Industries, University of Ngaoundere, Ngaoundere, Cameroon.
²National Advanced School of Engineering of Maroua, University of Maroua, Maroua, Cameroon.
³Laboratory of Reactions and Process Engineering, University of Lorraine-France, Nancy, France.
⁴Higher Institute of Agriculture, Wood, Water and Environment, University of Ebolowa, Ebolowa, Cameroon.

In South Saharan countries, 85% of the population uses biomass as a primary energy source. Cameroon presents one of the highest biomass energy and sawmills produce important sawdust resources which are not used and are burnt in piles leading to significant air toxic emissions. Therefore, we have to valorize industrially these available sawdusts. This study focuses on the physicochemical and thermochemical analysis of Ayous, Sapelli and Tali sawdust. The proximate and ultimate analysis, particle size, structural composition, as well as heavy metal content and calorific value were determined. In addition, the thermogravimetric mass losses were also estimated. The results showed that high water contents (24% - 41%) were recorded in the raw sawdust, and the thermal treatment reduced these contents from 78% to values in the range of 4% - 9%. The values for ash and volatile matter content were respectively between 0.25% - 0.74% and 68% - 76%. The LHV is higher in Ayous (17.5 MJ/kg) and Sapelli (16.8 MJ/kg) than that of Tali (15.7 MJ/kg). The concentration of heavy metals is very low in each species. Extractives are more present in Tali (16.06%) than in the other sawdusts. Pyrolysis of sawdust shows the typical decomposition of hemicellulose (270˚C - 325˚C), cellulose (325˚C - 400˚C) and lignin (200˚C - 550˚C) with a maximum loss of 75% at 370˚C and the melting point is 320˚C. The results of the sawdust parameters determined in the paper can be valorized to reduce pollutants emissions by developing the efficiency and effectiveness of biomass energy processes and promoting the use of biomass as a sustainable alternative to traditional fossil fuels.

Wood, Sawmills, Sawdust, Combustion, Energy

Kaoke, D. , Brech, Y. , Talla, E. , Dufour, A. and Kouotou, P. (2024) Physicochemical and Thermal Properties of Some Key Tropical Sawdust Woods for Energy Production. Journal of Sustainable Bioenergy Systems, 14, 1-22. doi: 10.4236/jsbs.2024.141001.