Saved in:
Bibliographic Details
Main Authors: Guoyong, Xie, Wen, Du, Zhiguo, Wang, Jingbo, Chen, Zhiwei, Sun, Liyan, Liu, Bingbing, Li
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2501.14262
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866910797717831680
author Guoyong, Xie
Wen, Du
Zhiguo, Wang
Jingbo, Chen
Zhiwei, Sun
Liyan, Liu
Bingbing, Li
author_facet Guoyong, Xie
Wen, Du
Zhiguo, Wang
Jingbo, Chen
Zhiwei, Sun
Liyan, Liu
Bingbing, Li
contents To explain the similarity between e-cigarette aerosol and e-liquid composition despite differing component boiling points, a non-selective evaporation mechanism for binary aerosol generating agents was investigated using phase diagrams and capillary evaporation theory. Experiments including evaporation temperature measurement, airflow heating, and capillary evaporation observation validated the non-selective evaporation process. Key findings: 1) Non-selective evaporation occurs due to liquid convection obstruction in capillaries, forming an evaporation layer with a composition distinct from the main liquid phase. Stable non-selective evaporation arises when the gas-phase composition matches the liquid-phase components transferred to the evaporation layer. 2) Evaporation temperature (T) deviated significantly from the bubble point temperature (Tb) and aligned closely with the dew point temperature (Tc), indicating a stable evaporation layer with a unique composition. 3) Surface heating and porous material experiments demonstrated significant deviations from ideal selective evaporation in water/methanol, water/propylene glycol, and propylene glycol/glycerol systems, highlighting the roles of "surface heating" and "mass transfer resistance" in non-selective evaporation. 4) A two-stage capillary evaporation experiment revealed a transition in evaporation rate, confirming a shift in the evaporation layer's composition during stable non-selective evaporation. 5) Particle tracing confirmed unidirectional liquid flow in capillaries, with micro-convection near the meniscus, further supporting the "evaporation layer" concept. These findings provide a mechanistic understanding of non-selective evaporation in e-cigarette aerosols.
format Preprint
id arxiv_https___arxiv_org_abs_2501_14262
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Non-selective evaporation mechanism of binary aerosol generating agent on porous atomizer and its experimental verification
Guoyong, Xie
Wen, Du
Zhiguo, Wang
Jingbo, Chen
Zhiwei, Sun
Liyan, Liu
Bingbing, Li
Fluid Dynamics
Chemical Physics
To explain the similarity between e-cigarette aerosol and e-liquid composition despite differing component boiling points, a non-selective evaporation mechanism for binary aerosol generating agents was investigated using phase diagrams and capillary evaporation theory. Experiments including evaporation temperature measurement, airflow heating, and capillary evaporation observation validated the non-selective evaporation process. Key findings: 1) Non-selective evaporation occurs due to liquid convection obstruction in capillaries, forming an evaporation layer with a composition distinct from the main liquid phase. Stable non-selective evaporation arises when the gas-phase composition matches the liquid-phase components transferred to the evaporation layer. 2) Evaporation temperature (T) deviated significantly from the bubble point temperature (Tb) and aligned closely with the dew point temperature (Tc), indicating a stable evaporation layer with a unique composition. 3) Surface heating and porous material experiments demonstrated significant deviations from ideal selective evaporation in water/methanol, water/propylene glycol, and propylene glycol/glycerol systems, highlighting the roles of "surface heating" and "mass transfer resistance" in non-selective evaporation. 4) A two-stage capillary evaporation experiment revealed a transition in evaporation rate, confirming a shift in the evaporation layer's composition during stable non-selective evaporation. 5) Particle tracing confirmed unidirectional liquid flow in capillaries, with micro-convection near the meniscus, further supporting the "evaporation layer" concept. These findings provide a mechanistic understanding of non-selective evaporation in e-cigarette aerosols.
title Non-selective evaporation mechanism of binary aerosol generating agent on porous atomizer and its experimental verification
topic Fluid Dynamics
Chemical Physics
url https://arxiv.org/abs/2501.14262