Energies (Mar 2021)

Conical Two-Phase Swirl Flow Atomizers—Numerical and Experimental Study

  • Marek Ochowiak,
  • Daniel Janecki,
  • Andżelika Krupińska,
  • Sylwia Włodarczak,
  • Tomasz Wilk,
  • Radosław Olszewski

DOI
https://doi.org/10.3390/en14061745
Journal volume & issue
Vol. 14, no. 6
p. 1745

Abstract

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This paper presents the results of numerical simulations for the developed and discussed conical two-phase atomizers with swirl flow, differing in the ratio of the height of the swirl chamber to its diameter. Experiments were carried out for SAN-1 with HS/DS = 1 and SAN-2 with HS/DS = 4 atomizers. The study was conducted over a range of Reynolds number for liquid ReL = (1400; 5650) and for gas ReG = (2970; 9900). Numerical calculations were performed with the use of computational fluid dynamics (CFD), which were verified on the basis of experimental data. Based on the analysis of experimental studies and simulations results the influence of operational parameters and changes of the atomizer geometry on the generated spray was demonstrated. As the gas flow rate increased and the swirl chamber height decreased, the spray angle increased. Higher velocity values of the liquid and greater turbulence occur in the center of the spray. The flow inside the atomizer determines the nature of the spray obtained. The geometry of the swirl chamber influences the air core formed inside the atomizer, and this determines the atomization effect. The results of numerical simulations not only confirm the results of experimental studies, but also provide additional information on internal and external fluid flow.

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