H. A. AjimotokanA.O. EhinderoKabiru Sulaiman AJAOAdekunle Akanni AdelekePeter Pelumi IkubanniY. L. Shuaib-Babata2025-01-282019-10-14Ajimotokan, H.A. et.al. (2019). Combustion characteristics of fuel briquettes made from charcoal particles and sawdust agglomerates. Scientific African, 6(00202).2468-2276https://doi.org/10.1016/j.sciaf.2019.e00202https://repository.nileuniversity.edu.ng/handle/123456789/264The combustion characteristics of fuel briquettes made from Idigbo (Terminalia ivorensis) charcoal particles, pinewood (Pinus caribaea) sawdust and their agglomerates using gelatinized cassava peels were investigated. The charcoal particles and pine sawdust were blended in the mixing ratios of 90:10, 80:20, 70:30, 60:40, and 50:50, respectively and vice-versa. More so, briquettes were produced from pure charcoal particles and pine sawdust separately for the purpose of comparison with the blended briquettes. The gelatinized binder was 5% of the total briquettes weight. The briquettes were produced using a pressure of 5 MPa with a dwelling time of 5 min in a hydraulic briquetting machine. Proximate, elemental compositions and heating value analyses were carried out on the raw charcoal, sawdust, cassava peel, and their briquettes. The results showed that variations in the mixing ratios of the bio-residues had significant effects on all the properties investigated. An increase in the charcoal particles led to an increase in the fixed carbon content and heating value of the briquettes. Conversely, higher pine sawdust content in the briquette resulted in higher volatile matter content and lower heating value. The briquette made from pure charcoal particles had the highest heating value (24.9 MJ/kg) and ash content (6.0%). Its carbon, hydrogen, and oxygen contents were in the range of 44.6–50.1%, 5.1–5.6% and 34.4–41.5%, respectively. The proximate analysis, elemental composition analysis, and heating values of the produced fuel briquettes depicted that they have better combustion properties when compared to the raw charcoal, pine dust, and cassava peel. Thus, the produced briquettes would serve as good fuel for domestic and industrial applications.enComposite materialPulp and paper industryScienceTechnical Aspects of Biodiesel ProductionBiomedical EngineeringFOS: Mechanical engineeringCombustionSolid fuelOrganic chemistry02 engineering and technologyCoal Water Slurry Technology and UtilizationFOS: Medical engineeringEngineeringBriquetteCarbon fibers0202 electrical engineering, electronic engineering, information engineeringWaste managementMechanical EngineeringQBiomass Pyrolysis and Conversion TechnologiesComposite numberSawdustMaterials scienceChemistryHeat of combustionCoalCharcoalPhysical SciencesMetallurgyArticle