The Mechanics And Stability Of Liquid Jets And Films Jet Atomization

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The Mechanics And Stability Of Liquid Jets And Films Jet Atomization

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Author : KEVIN RICHARD JOHN ELLWOOD
language : en
Publisher:
Release Date : 1991

The Mechanics And Stability Of Liquid Jets And Films Jet Atomization written by KEVIN RICHARD JOHN ELLWOOD and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 1991 with categories.

The underlying objective of this thesis is to study the process of coating by jet atomization, whose mechanism is divided into the mechanics and stability of liquid jets and the dynamics of thin films.

Free Liquid Jets And Films

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Author : Alexander L. Yarin
language : en
Publisher: Chapman & Hall/CRC
Release Date : 1993

Free Liquid Jets And Films written by Alexander L. Yarin and has been published by Chapman & Hall/CRC this book supported file pdf, txt, epub, kindle and other format this book has been release on 1993 with Mathematics categories.

An examination of the hydrodynamics of free liquid jets and the films of viscous and rheologically complex (in particular, polymeric) liquids. Offering a unique and comprehensive coverage of an important topic, this volume will be invaluable for all those involved in applied mathematics, computational fluid mechanics, hydrodynamics, rheology, applied physics, as well as chemical and mechanical engineering.

Fundamental Mechanism Of Liquid Jet Atomization

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Author : Daejoon Kang
language : en
Publisher:
Release Date : 1988

Fundamental Mechanism Of Liquid Jet Atomization written by Daejoon Kang and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 1988 with Atomization categories.

The Mechanics Of Liquid Jets

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Author : James N. Anno
language : en
Publisher: Great Source Education Group
Release Date : 1977

The Mechanics Of Liquid Jets written by James N. Anno and has been published by Great Source Education Group this book supported file pdf, txt, epub, kindle and other format this book has been release on 1977 with Education categories.

Optimized Amplification Of Interface Distortion On Liquid Jets

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Author : Hanul Hwang
language : en
Publisher:
Release Date : 2022

Optimized Amplification Of Interface Distortion On Liquid Jets written by Hanul Hwang and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2022 with categories.

A fragmentation process of the liquid jet begins with the amplification of small disturbances. Understanding the evolution of the initial perturbation is critical in controlling the quality of the atomization outcomes, such as the droplet size distribution and the evaporation rate of the liquid, as these are directly related to the performance of a variety of atomization applications. In this study, we identify a novel mechanism for the effective amplification of the initial perturbation on liquid jets. This mechanism is independent of the exponential instability of the flow and can intensify small perturbations to the material interface by several orders of magnitude. Depending on its operating conditions, the liquid jet can amplify interfacial disturbances at a faster pace than can modal mechanisms such as the Kelvin--Helmholtz (K--H) instability. This study is based on a spatial linear stability theory in a two-fluid formulation that accounts for both viscosity and surface tension effects. The identified mechanism is verified using nonlinear simulations. In simulations, we observe nonlinear effects that create small-scale structures, a result not predicted in linear theory. As a measure of effective atomization, the small-scale structures are quantified by computing the surface area of the liquid jet. A study comparing the surface area between the liquid jet perturbed by the identified mechanism and the random inlet perturbation results higher surface area, which indicates that the identified mechanism drives more severe corrugation on the material interface leading to an effective atomization. A systematic framework for stability analysis of two-phase flows is constructed. The base flow of liquid jets is assumed to be streamwise invariant, stationary in time, axisymmetric, and laminar. Because of these assumptions, the base flow remains as the only function of radial direction. The ansatzes for the disturbance on a liquid jet are exponential functions in corresponding homogeneous directions. For an inhomogeneous direction, i.e., radial direction, disturbances are discretized using the Chebyshev spectral method. With linearized Navier-Stokes equations, the base flow, kinematic/dynamic interface conditions, and boundary conditions, analyzing the stability of liquid jets boils down to a well-posed eigenvalue problem. The eigenvalue problem is solved in the spatial framework where the input is a real perturbation frequency, and the outcomes are complex wavenumbers with corresponding eigenfunctions. A computationally cost-effective method is proposed to evaluate of eigenmode propagation direction. Unlike the temporal eigenvalue problem, solving the spatial eigenvalue problem adds more complexity in that the propagation direction of eigenmodes must be identified. Here, we solve the adjoint eigenvalue problem and invoke bi-orthogonality of the eigenfunctions to evaluate the group velocity of each eigenmode. With this group velocity evaluation metric, downstream propagating modes are identified. The effect of vorticity layer thickness on the downstream propagating unstable mode of liquid jets is explored. In addition, the identification of eigenmodes is illustrated using energy budgets. In contrast to classical modal growth analysis, a new pathway leading to an effective surface distortion of liquid jets is studied in detail. Analysis of the new mechanism is cast as an optimization problem that maximizes surface tension energy gain from the inlet perturbation distribution at the nozzle and discounts the trivial redistribution of perturbation kinetic energy. The identified mechanism is related to the Orr mechanism, and it amplifies distortions to the material interface via a reorientation of perturbations by the mean shear. Analyses of the linearized energy budgets show that energy is extracted from the mean shear by the production term of the streamwise perturbation velocity component and subsequently is transferred to the radial perturbation velocity component, where it is absorbed by the surface-tension potential of the interface. The gain in surface tension energy attributable to the mechanism is shown to scale linearly with the Reynolds number. A critical Weber number is identified as a lower bound beyond which the mechanism becomes active, and a power-law relation to the Reynolds number is established. The realizability of the identified mechanism is verified using nonlinear simulations. Numerical simulations of the optimized jets are conducted with a weakly compressible multiphase solver on an unstructured grid with algebraic VoF as an interface-tracking algorithm. We demonstrate the multiphase Orr mechanism as a realizable process for liquid jet atomization with various flow conditions. The comparison study of liquid jet surface area between the randomly disturbed jet and the optimized jet demonstrates the formation of the small-scale structures, and hence the ligaments, occurring within a relatively short downstream distance in the latter case.

Breakup Of Liquid Sheets And Jets

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Author : S. P. Lin
language : en
Publisher: Cambridge University Press
Release Date : 2003-08-21

Breakup Of Liquid Sheets And Jets written by S. P. Lin and has been published by Cambridge University Press this book supported file pdf, txt, epub, kindle and other format this book has been release on 2003-08-21 with Technology & Engineering categories.

This book, first published in 2003, is an exposition of what we knew about the physics underlying the onset of instability in liquid sheets and jets. Wave motion and breakup phenomena subsequent to the onset of instability are carefully explained. Physical concepts are established through rigorous mathematics, accurate numerical analyses and comparison of theory with experiment. Exercises are provided for students, and these help familiarize the reader with the required mathematical tools. This book further provides a rational basis for designing equipment and processes involving the phenomena of sheet and jet breakup. Researchers interested in transition to turbulence, hydrodynamic stability or combustion will find this book a highly useful resource, whether their background lies in engineering, physics, chemistry, biology, medicine or applied mathematics.

Liquid Atomization

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Author : L.P. Bayvel
language : en
Publisher: CRC Press
Release Date : 1993-08-01

Liquid Atomization written by L.P. Bayvel and has been published by CRC Press this book supported file pdf, txt, epub, kindle and other format this book has been release on 1993-08-01 with Science categories.

Covering the basics of liquid atomization, this book familiarizes readers with the physical processes of liquid atomization, the main types of atomizers and their design, measurements of spray characteristics, experimental investigations of atomizers, and application of atomizers. It demonstrates how to calculate and design atomizers and how to measure the macro- and microstructure parameters of atomized liquid. With a copious amount of numerical problems available for use as student tutorials, the book is suitable as a supplemental text for courses in mechanical, chemical, fuel, aeronautical, civil, and agricultural engineering.

Modeling The Atomization Of A Liquid Jet And Application Of The Model To Large Diameter Molton Corium Jets

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Author : Stuart Curtis Winquist
language : en
Publisher:
Release Date : 1986

Modeling The Atomization Of A Liquid Jet And Application Of The Model To Large Diameter Molton Corium Jets written by Stuart Curtis Winquist and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 1986 with categories.

A Study Of The Interaction Of Liquid Jets With Solid Surfaces

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Author : Mario Errico
language : en
Publisher:
Release Date : 1986

A Study Of The Interaction Of Liquid Jets With Solid Surfaces written by Mario Errico and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 1986 with Jets categories.

Experimental Investigation Of The Stability Of Liquid Sheet Jets

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Author : Ronald K. Takahashi
language : en
Publisher:
Release Date : 1978

Experimental Investigation Of The Stability Of Liquid Sheet Jets written by Ronald K. Takahashi and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 1978 with categories.