Abstract
Physical and thermal properties of briquettes produced by recycling charcoal dust under different processing conditions have been reported in this study. The main aim was to investigate the effects of the binder and processing conditions on the properties of briquettes. The effect of adding molasses binder on combustion properties of the briquette was first assessed. Then by fitting experimental data, mathematical models to predict gross calorific value, ash content, moisture content, relaxed density and shatter index with respect to binder mass fraction, drying temperature and compaction pressure were developed. All briquettes properties were predominantly affected by amount of molasses used. Molasses mass fraction increment in briquette results in significant increment in ash content, moisture content, relaxed density and shatter index and significant reduction in gross calorific value. Drying temperature did not have major influence on briquette properties except moisture content. Compaction pressure (50–150 MPa) used in this study had negligible influences on all briquette properties. Therefore, such high pressure which involves energy consumption is not necessary during production of charcoal dust briquettes. Optimized values of gross calorific value and shatter index were 29.031 MJ/kg and 80.363%, respectively, for 50 MPa compaction pressure, 29.512 °C drying temperature and 10% molasses mass ratio.
Highlights
IntroductionAccording to Energy Commission of Kenya [1], 70% of the Kenya energy demand is contributed by biomass and more than 90% of the rural households depend on it for their energy needs
Biomass fuel is the main source of energy for most Kenyan population
The main aim of this study was to investigate the effect of using sugar cane molasses as a binder on the properties of briquette made from recycling charcoal dust
Summary
According to Energy Commission of Kenya [1], 70% of the Kenya energy demand is contributed by biomass and more than 90% of the rural households depend on it for their energy needs. These fuels are normally used in various forms, viz.; solid wood, wood chips, wood pellets, charcoal, crop residue, sawdust, briquette, etc. Even though there is a large amount of biomass waste generated in Kenya (4.5 million tonnes per year [4]), its usage in the form of briquette fuels is still low [5]. Charcoal dust is among these unexploited resources [2]
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More From: International Journal of Energy and Environmental Engineering
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