Potential application of using vortex ring for personalized ventilation.

Abstract

A novel vortex ring personalized ventilation system (VRPV) is proposed for efficiently supplying fresh air to room occupants. A vortex ring generator with a piston-cylinder is developed for an experimental study of the formation, transportation, and ventilation characteristics of the VRPV. The translational velocity, volume, and fresh air ratio of the vortex rings are studied using high-speed cameras and tracer gas experiments. According to the results, the categories of the vortex ring volume in the formation stage are studied. It is observed that the velocity of the piston determines the initial translational velocity of the vortex ring, and a fitting equation is proposed to predict the evolution of the translational velocity. The deviation range of the VRPV over different distances is studied, and it is shown to be affected by interference from both the generator and the environment. Finally, the total volumes, fresh air volumes, and fresh air ratios of the VRPV are studied at different distances. The results indicate that, as a personalized ventilation system, the fresh air ratio of the VRPV is up to 159.3% higher than that of a symmetrical round jet within a 0-4m range. This shows the excellent application potential of the VRPV for providing high-efficiency personalized ventilation with lower fresh airflow rates.