There is a great increase in the demand and cost of energy globally. The cost of purchasing petrol fuel is quite high; this has led the rural dwellers to concentrate on firewood as an alternative means of cooking, action which has greatly affected our ecosystem. This research is focused on the production of briquettes using waste sawdust and groundnut shell with starch and condemn oil as binder. These waste materials can be converted into a product that will provide alternative energy to the people rather than constituting environmental problems. The briquettes were produced using a modified briquetting machine developed at the Federal University of Petroleum Resources Engineering workshop. It was observed that the density of the briquette produced increased with blend ratio, amount of binder and compaction time. Optimisation technique predicted briquette density of 278.1 kg/m³ at the optimal level of 8.0, 10% and 50 minutes for the blend, binder and compaction time respectively. Combustion related properties of the briquette at the optimum level were density(277.9 kg/m³), ash content (25.29%), moisture content (4.68 %wt), bulk density (3.03) g/cm³) and burning rate (0.46 g/min) and these values are in accordance with previous research studies. Conclusively, the briquette fuel formed is effective, affordable and can be used as solid fuels to support heating in local and industrialized settings. In addition, establishing a small briquetting firm will serve as an alternative source of energy for cooking, create job opportunities and raise the standard of living of youths.

Abakr A.A., A. E. Abasaeed (2006) Experimental evaluation of a conical-screw briquetting machine for the briquetting of carbonized cotton stalks in sudan Journal of Engineering Science and Technology Vol. 1 (2) 212- 220

Adetogun, A. C. (2014). Density of Briquettes Produced from Bambara Groundnut Shells and It ’ s binary and Tertiary Combinations with Rice Husk and Peanut Shells, Journal of Natural Sciences Research 4(24).

Ajobo, J. A. (2014). Densification Characteristics of Groundnut Shell, International Journal of Mechanical and Industrial Technology. 2(1), 150–154.

Anggono W., Sutrisno, Suprianto F.D.; J. Evander. (2017) Biomass Briquette Investigation from Pterocarpus Indicus Leaves Waste as an Alternative Renewable Energy. IOP Conf. Series: Materials Science and Engineering 24, 10 12-43.

Arinola B. Ajayi, Justina I. Osumune. (2013) Design of Sawdust Briquette Machine Innovative Systems Design and Engineering Vol.4, No.10,

Brand M.A., Jacinto R.C., Antunes R., Cunha A.B. (2017), Production of briquettes as a tool to optimize the use of waste from rice cultivation and industrial processing Renewable Energy 111, 116-123

Chinyere D.C., Asoegbu S.N., Nwadikom G.I. An Evaluation of Briquettes from Sawdust and Corn Starch Binder the international journal of science & technoledge vol 2(7)149-157

Davies R.M. and D.S. Abolude (2013). Ignition and Burning Rate of Water Hyacinth Briquettes. Journal of Scientific Research & Reports 2(1): 111-120, Article no. JSRR.009

Ighodalo O.A., Zoukumor K., Egbon C., Okoh S., and Odu K. (2011) Processing water hyacinth into biomass Briquettes for cooking purposes Journal of Emerging Trends in Engineering and Applied Sciences (JETEAS) 2 (2): 305-307

Kiss, I., and Alexa, V. (2015). Short Introspections Regarding Sawdust Briquetting, Journal of Engineering Technology 8(2), 72–79.

Kuti, O.A (2009). Performance of Composite Sawdust Briquette Fuel in a Biomass Stove under Simulated Condition. AU J.T. 12(4): 284-288

Lubwama M., Yiga V.A. (2018) Characteristics of briquettes developed from rice and coffee husks for domestic cooking applications in Uganda Renewable Energy 118, 43-55

Lubwama M., Yiga V.A. (2017) Development of groundnut shells and bagasse briquettes as sustainable fuel sources for domestic cooking applications in Uganda Renewable Energy 111, 532-542

Nwabue F.I., U. Unah, E.J. Itumoh (2017) Production and characterization of smokeless bio-coal briquettes incorporating plastic waste materials Environmental Technology & Innovation 8 233–245

Okello C., Pindozzi S., Faugno S., Boccia L. (2013) Development of bioenergy technologies in Uganda: a review of progress, Renew. Sustain. Energy Rev. 18, 55-63.

Olorunnisola A. (2007) “Production of Fuel Briquettes from Waste Paper and Coconut Husk Mixtures”. Agricultural Engineering International: the CIGR E. Journal. Manuscript EE 06 006 Vol. 4

Oyelaran, O. A., Bolaji, B. O., Waheed, M. A., & Adekunle, M. F. (2015). Characterization of briquettes Produced from Groundnut Shell and Waste Paper Admixture. Iranica Journal of Energy and Environment, 6(1), 34–38.

Raymer A.K.P. (2006). A comparison of avoided greenhouse gas emissions when using different kinds of wood energy, Biomass Bioenergy 30 (7) 605-617.

Rajkumar D. and Venkatachalam P. (2013) Physical properties of agro residual briquettes produced from Cotton, Soybean and Pigeon pea stalks International Journal on Power Engineering and Energy Vol. (4) 414-417

Rehfuess E., (2006) Fuel for Life. Household Energy and Health, World Health Organization, Geneva. Switzerland.

Rezania S., Din M., Kamaruddin S.F., Taib S.M., Singh L., Yong E.L., Dahalan F.A. (2016) Evaluation of water hyacinth (Eichhornia crassipes) as a potential raw material source for briquette production Energy 111, 768-773

Rezania; M. F. M. Din, S. F. Kamaruddin, S. M. Taib, L. Singh, E. L. Yong, F. A. Dahalan (2017). Corrigendum to “Evaluation of water hyacinth (Eichhornia crassipes) as a potential raw material source for briquette production”. Journal of Energy 111, 768-773.

Sisman C.B. and Gezer E. (2013). Effects of rice husk ash on characteristics of the briquette produced for masonry units Vol. 6(4), pp. 984-992

Supatata N., Buates J., and Hariyanont P. (2013) Characterization of Fuel Briquettes Made from Sewage Sludge Mixed with Water Hyacinth and Sewage Sludge Mixed with Sedge. International Journal of Environmental Science and Development, Vol. 4, No. 2.

Tembe, E. T., Otache, P. O., & Ekhuemelo, D. O. (2014). Density, Shatter index, and Combustion properties of briquettes produced from groundnut shells, rice husks and saw dust of Daniellia oliveri. journal of Applied Biosciences, 82(1), 7372–7378.

Thao P.T.M., Kurisu K.H., K. Hanaki (2011) Greenhouse gas emission mitigation potential of rice husks for an Giang province, Vietnam Biomass Bioenergy 35 (8) 3656-3666.

Vargas-Moreno J.M., A.J. Callej_on-Ferre, J. P_erez-Alonso, B. Vel_azquez-Martí (2012) A review of the mathematical models for predicting the heating value of biomass materials, Renew. Sustain. Energy Rev. 16 (5) 3065-3083.

Wu S., S. Zhang, C. Wang, C. Mu, X. Huang (2018). High-strength charcoal briquette preparation from hydrothermal pretreated biomass wastes Fuel Processing Technology 171, 293–300

Yank A., M. Ngadi, R. Kok (2016) Physical properties of rice husk and bran briquettes under low pressure densification for rural applications, Biomass Bioenergy 84, 22-30