Research on Optimization Model of Air Conditioners and Air Purifiers Based on Fluid Mechanics

Xinyu Chen

doi:10.54097/kga2aj96

Authors

Xinyu Chen

DOI:

https://doi.org/10.54097/kga2aj96

Keywords:

Fluid Mechanics, Genetic Algorithm, Computational Fluid Dynamics.

Abstract

This study focuses on the optimization model of air conditioners and air purifiers, which is conducted through in-depth exploration based on fluid mechanics and aerodynamics principles and genetic algorithm (GA) model. A physical model of the indoor environment including wall-mounted air conditioners and air purifiers is established. On the mathematical modeling level, the continuity equation, momentum equation, energy equation, and pollutant diffusion equation are comprehensively applied to rigorously control the laws of indoor airflow, temperature, energy transfer, and pollutant transport. This research provides a solid foundation for the scientific layout and precise parameter adjustment of air conditioners and air purifiers combined systems, and effectively guides the optimization of equipment operation strategies. It has crucial guiding value and practical significance for enhancing indoor environmental comfort, efficiently purifying the air, and safeguarding human health.

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