Nonlinear modeling of jet atomization in the wind-induced regime
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Publication:4423871
DOI10.1063/1.868572zbMath1023.76571OpenAlexW2077714956MaRDI QIDQ4423871
Christopher A. Spangler, Stephen D. Heister, James H. Hilbing
Publication date: 18 November 2003
Published in: Physics of Fluids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1063/1.868572
Boundary element methods applied to problems in fluid mechanics (76M15) Jets and cavities, cavitation, free-streamline theory, water-entry problems, airfoil and hydrofoil theory, sloshing (76B10)
Related Items (10)
Two-dimensional modeling of viscous liquid jet breakup ⋮ Three-dimensional free surface simulation ⋮ Droplet bounce simulations and air pressure effects on the deformation of pre-impact droplets, using a boundary element method ⋮ Nonlinear breakup of a coaxial liquid jet in a swirling gas stream ⋮ Axisymmetric boundary integral formulation for a two‐fluid system ⋮ Droplet distributions at the liquid core of a turbulent spray ⋮ Disintegration of planar liquid film impacted by two-dimensional gas jets ⋮ Droplet size control in liquid jet breakup ⋮ Nonlinear dynamics and breakup of free-surface flows ⋮ Analytic solution for fluxes at interior points for the 2D Laplace equation.
Cites Work
- Mechanism of atomization of a liquid jet
- The nonlinear capillary instability of a liquid jet. Part 1. Theory
- Nonlinear breakup of a laminar liquid jet
- The instability of capillary jets
- The nonlinear capillary instability of a liquid jet. Part 2. Experiments on jet behaviour before droplet formation
- The nonlinear capillary instability of a liquid jet. Part 3. Experiments on satellite drop formation and control
- Non-linear capillary instability of a liquid jet
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