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Crackling sound generation during the formation of liquid bridges: A lattice gas model

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  • Almeida, Alexandre B.
  • Buldyrev, Sergey V.
  • Alencar, Adriano M.

Abstract

Due to abnormal mechanical instabilities, liquid bridges may form in the small airways blocking airflow. Liquid bridge ruptures during inhalation are the major cause of the crackling adventitious lung sound, which can be heard using a simple stethoscope. Recently, Vyshedskiy and colleagues (2009) [1] described and characterized a crackle sound originated during expiration. However, the mechanism and origin of the expiratory crackle are still controversial. Thus, in this paper, we propose a mechanism for expiratory crackles. We hypothesize that the expiratory crackle sound is a result of the energy released in the form of acoustic waves during the formation of the liquid bridge. The magnitude of the energy released is proportional to the difference in free energy prior and after the bridge formation. We use a lattice gas model to describe the liquid bridge formation between two parallel planes. Specifically, we determine the surface free energy and the conditions of the liquid bridge formation between two parallel planes separated by a distance 2h by a liquid droplet of volume Ω and contact angle Θ, using both Monte Carlo simulation of a lattice gas model and variational calculus based on minimization of the surface area with the volume and the contact angle constrained. We numerically and analytically determine the phase diagram of the system as a function of the dimensionless parameter hΩ−1/3 and Θ. We can distinguish two different phases: one droplet and one liquid bridge. We observe a hysteresis curve for the energy changes between these two states, and a finite size effect in the bridge formation. We compute the release of free energy during the formation of the liquid bridge and discuss the results in terms of system size. We also calculate the force exerted from liquid bridge on the planes by studying the dependence of the free energy on the separation between the planes 2h. The simulation results are in agreement with the analytical solution.

Suggested Citation

  • Almeida, Alexandre B. & Buldyrev, Sergey V. & Alencar, Adriano M., 2013. "Crackling sound generation during the formation of liquid bridges: A lattice gas model," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 392(16), pages 3409-3416.
  • Handle: RePEc:eee:phsmap:v:392:y:2013:i:16:p:3409-3416
    DOI: 10.1016/j.physa.2013.03.038
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    References listed on IDEAS

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    1. Skartlien, R. & Furtado, K. & Sollum, E. & Meakin, P. & Kralova, I., 2011. "Lattice–Boltzmann simulations of dynamic interfacial tension due to soluble amphiphilic surfactant," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 390(12), pages 2291-2302.
    2. Alencar, Adriano M. & Majumdar, Arnab & Hantos, Zoltan & Buldyrev, Sergey V. & Eugene Stanley, H. & Suki, Béla, 2005. "Crackles and instabilities during lung inflation," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 357(1), pages 18-26.
    3. Adriano M. Alencar & Stephen P. Arold & Sergey V. Buldyrev & Arnab Majumdar & Dimitrije Stamenović & H. Eugene Stanley & Béla Suki, 2002. "Dynamic instabilities in the inflating lung," Nature, Nature, vol. 417(6891), pages 809-811, June.
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    1. Alencar, Adriano M. & Majumdar, Arnab & Hantos, Zoltan & Buldyrev, Sergey V. & Eugene Stanley, H. & Suki, Béla, 2005. "Crackles and instabilities during lung inflation," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 357(1), pages 18-26.

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    Keywords

    Crackle; Pots; Instabilities; Sound;
    All these keywords.

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