RESEARCH OF THE TRAJECTORY OF THE MOVEMENT OF FUEL PARTICLES IN THE MIXER

Abstract

This article is devoted to the study of the trajectories of the movement of fuel particles in the mixer, which is a key aspect for improving the technological processes of modern combustion systems. It is noted that effective mixing and distribution of fuel particles plays a decisive role in ensuring optimal combustion, which, in turn, leads to increased efficiency and reduced emissions of harmful substances. The article covers various aspects of the research, including studying the hydrodynamic characteristics of the mixer, modeling the movement of fuel particles and determining the optimal mixing parameters. An important part of the research is the analysis of particle movement trajectories, which allows to accurately determine their paths in the mixing environment. The application of the latest modeling methods and experimental studies allows to obtain a deeper understanding of the internal processes in the mixer, which contributes to the development of optimal designs and modes of operation. The obtained results can have a significant impact on the development and improvement of combustion systems aimed at reducing emissions and increasing the efficiency of using fuel resources. This article is devoted to a thorough analysis of the trajectories of the movement of fuel particles in mixers. The main aspects of the study include hydrodynamic characteristics of the mixer, modeling of particle motion and determination of optimal mixing parameters to achieve maximum efficiency and minimize emissions. The obtained results can make a significant contribution to the development of efficient and environmentally friendly fuel combustion systems.