Eficiencia de combustión del cuesco de palma africana en un quemador de tiro forzado

Abstract

The present study evaluates the use of African palm kernel (PKS) as an alternative for generating thermal energy for commercial and industrial use against fossil fuels. By means of the optimal identification of the air / fuel ratio of the African palm grove from the measurement of the adiabatic flame temperature in a forced draft burner, the point of greatest combustion efficiency and thermal energy generation is analyzed. In the solid biomass combustion efficiency (PKS) methodology, the mass flow of African palm kernel and the combustion air flow have been evaluated as independent variables and combustion efficiency as a dependent variable for thermal energy production. On the other hand, the values of relative humidity, ambient temperature, absolute humidity of the cuesco remained constant throughout the experimentation phase. An experimental surface design is implemented to evaluate the optimum fuel air ratio (A / C) for the calculation of combustion efficiency by measuring the adiabatic flame temperature. In the experimental phase of combustion of cuesco (PKS) in a forced draft burner of 70 kW of thermal power, a maximum combustion efficiency of 84% is obtained by having stable presence of maximum combustion flame of 1244 K with the lowest percentage of excess air of 33.18% and with the maximum flow of 15 kg / h of PKS allowed by the burner and 115 kg / h of air or at 100% the capacity of the centrifugal fan. Therefore, the optimum fuel-air ratio of 7.7 kg of air / kg PKS is considered.