ENHANCING THE EFFICIENCY OF THE TWO-STAGE COMBUSTION PROCESS IN PYROLYSIS SYSTEMS.
Keywords:
Pirolysis, two-stage combustion biomass, energy efficiency, thermal energy, environmental safety, thermochemical processes, exhaust gases, fuel gases, renewable energy.Abstract
This article explores the possibilities of improving the structural and functional aspects of a two-stage combustion system in the process of pyrolysis based on biomass. To ensure the complete and efficient combustion of combustible gases and solid residues formed as a result of pyrolysis, it is important to use a two-stage combustion technology. In this technology, in the first stage, pyrolytic gas is created in a low-oxygen environment, and in the second stage, this gas is completely burned under optimal conditions by supplying additional air. The article provides a theoretical analysis of the influence of this system on the temperature regime, gas flow direction, air distribution, and the design of the combustion chamber. The ecological advantages of the amount of heat released during two-stage combustion and the composition of exhaust gases will also be considered. The proposed solutions will contribute to the effective organization of the use of renewable energy sources, ensuring environmental safety in the processes of energy production for industrial and domestic needs.
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