THE BOUNDARY LAYER IN THE CONVERGING NOZZLE OF A SWIRL ATOMIZER
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Publication:5801913
DOI10.1093/qjmam/3.2.129zbMath0041.32602OpenAlexW1976710740MaRDI QIDQ5801913
Publication date: 1950
Published in: The Quarterly Journal of Mechanics and Applied Mathematics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1093/qjmam/3.2.129
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Laminar boundary layer in a swirling flow on a permeable surface ⋮ A hollow vortex with an axial velocity in a tube of variable radius ⋮ Analytical investigation of boundary layer growth and swirl intensity decay rate in a pipe ⋮ Flow and heat due to a surface formed by a vortical source ⋮ Theoretical and experimental investigations on the coefficient of discharge and spray cone angle of a swirl spray atomizing nozzle ⋮ The influence of twist on the motion of straight elliptical jets ⋮ Turbulent flow in converging nozzles. I: Boundary layer solution ⋮ Analytical solutions of laminar swirl decay in a straight pipe ⋮ On the brachistochrone of a fluid-filled cylinder ⋮ Converging swirling liquid jets from pressure swirl atomizers: Effect of inner air pressure ⋮ Theoretical model for swirling thin film flows inside nozzles with converging-diverging shapes ⋮ Dynamical similarity and universality of drop size and velocity spectra in sprays ⋮ Boundary layer solution for the turbulent swirling decay flow through a fixed pipe: SBR at the inlet ⋮ Invariant solutions of the three-dimensional laminar boundary-layer equations on developing surfaces ⋮ Interaction of an unconfined vortex with a solid surface ⋮ Numerical solutions for boundary layers beneath a potential vortex ⋮ On the use of a Pohlhausen method in three dimensional boundary layers ⋮ Turbulent modeling of a vortex boundary layer flow ⋮ Linearized spin-up in vortex flows
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