Deposition of a polydisperse aerosol in a narrow closed tube in resonance oscillation mode

Nonlinear oscillations of a gas and deposition of tobacco smoke at resonance in a narrow closed tube were experimentally studied. The resulting oscillograms show asymmetry of the leading and trailing edges of the pressure wave. With an increase in piston oscillation amplitude, an increase in the sound pressure level of the gas was revealed to $163$ dB at a maximum studied excitation amplitude of $0.3$ mm. The deposition of tobacco smoke particles in resonance oscillation mode with an excitation amplitude of $0.34~mm occurs $24$ times faster compared to natural deposition.