Articles online

Characterization of Vibrating Mesh Aerosol Generators

Category: Aerosol Physics and Instrumentation

Volume: 19 | Issue: 8 | Pages: 1678-1687
DOI: 10.4209/aaqr.2018.11.0436

Export Citation:  RIS | BibTeX

Yu-Mei Kuo1, Wei-Hsiang Chan2, Chih-Wei Lin2, Sheng-Hsiu Huang 2, Chih-Chieh Chen 2

  • 1 Department of Occupational Safety and Health, Chung Hwa University of Medical Technology, Tainan 71703, Taiwan
  • 2 Graduate Institute of Occupational Medicine and Industrial Hygiene, College of Public Health, National Taiwan University, Taipei 10055, Taiwan


  • Droplet characteristics generated by mesh nebulizers were measured.
  • Droplet size and liquid delivery rate were functions of the aperture size.
  • The droplet size was roughly proportional to the aperture size.
  • Liquid delivery methods restricted the use of mesh nebulizers in any direction.


The fate of inhaled aerosol particles within the respiratory tract is determined by factors such as the particle size distribution, breathing pattern, and airway geometry. Thus, matching the aerosol therapy device to the patient is crucial to achieving a high target site dose and minimizing side effects. High output efficiency and minimal residual volume have been reported for vibrating mesh nebulizers, which generate a high percentage of particles in the respirable fraction. Using custom-made plates, this work aimed to investigate and identify the major operating parameters of these devices and their effects on the characteristics of the aerosol output.

Each plate contained between 279 and 4606 tapered apertures that ranged from 3 to 12 µm in diameter and were uniformly sized per plate. To investigate the effect of coagulation during droplet generation, the distance between the apertures was varied from 75 to 450 µm. The resonance frequency of the piezoelectric element was scanned, and the aperture plates were then vibrated at a fixed frequency (100–300 kHz), causing the ejection of liquid droplets. The nebulizers were mainly evaluated using a 0.9% sodium chloride solution. A syringe pump injected the solution into the vibrating mesh plates. The aerosol output was carried, dried, and introduced into the mixing chamber by a dilution air flow of 160 L min–1. An aerosol size spectrometer was employed to measure both the number concentration and the size distribution of the output.

The droplet size increased with the aperture diameter. The distance between apertures did not affect the number concentration or the size distribution of the generated droplets. The droplet size decreased as the resonance frequency increased, but the extent was less than we expected. Each mesh possessed an optimal vibration frequency, which varied according to the size and the number of the apertures, for consistently maximizing the aerosol output. The optimal feeding rate increased with the number of apertures and the applied electric current, but the aerosol size distribution remained the same. Additionally, our results using a cotton wick to deliver the solution from the reservoir to the vibrating mesh indicate that fibrous sorbent materials can potentially replace the syringe pump.


Nebulizer Aerosol generation Vibrating mesh Piezoelectric element

Related Article