The Interaction of Particles with Homogeneous Turbulence
Title | The Interaction of Particles with Homogeneous Turbulence PDF eBook |
Author | Kyle David Squires |
Publisher | |
Pages | 308 |
Release | 1990 |
Genre | |
ISBN |
On the Two-way Interaction Between Homogeneous Turbulence and Dispersed Solid Particles
Title | On the Two-way Interaction Between Homogeneous Turbulence and Dispersed Solid Particles PDF eBook |
Author | S. Elghobashi |
Publisher | |
Pages | |
Release | 1993 |
Genre | |
ISBN |
The Interaction Between Dispersed Particles and Homogeneous Turbulent Shear Flows
Title | The Interaction Between Dispersed Particles and Homogeneous Turbulent Shear Flows PDF eBook |
Author | Abdel-Naby Mohamed Ahmed |
Publisher | |
Pages | 526 |
Release | 1998 |
Genre | Particles |
ISBN |
Particles in Turbulent Flows
Title | Particles in Turbulent Flows PDF eBook |
Author | Leonid I. Zaichik |
Publisher | John Wiley & Sons |
Pages | 318 |
Release | 2008-12-04 |
Genre | Science |
ISBN | 3527626263 |
The only work available to treat the theory of turbulent flow with suspended particles, this book also includes a section on simulation methods, comparing the model results obtained with the PDF method to those obtained with other techniques, such as DNS, LES and RANS. Written by experienced scientists with background in oil and gas processing, this book is applicable to a wide range of industries -- from the petrol industry and industrial chemistry to food and water processing.
IUTAM Symposium on Computational Approaches to Multiphase Flow
Title | IUTAM Symposium on Computational Approaches to Multiphase Flow PDF eBook |
Author | S. Balachandar |
Publisher | Springer Science & Business Media |
Pages | 443 |
Release | 2007-01-28 |
Genre | Science |
ISBN | 1402049773 |
The book provides a broad overview of the full spectrum of state-of-the-art computational activities in multiphase flow as presented by top practitioners in the field. It starts with well-established approaches and builds up to newer methods. These methods are illustrated with applications to a broad spectrum of problems involving particle dispersion and deposition, turbulence modulation, environmental flows, fluidized beds, bubbly flows, and many others.
The Rotation and Translation of Non-spherical Particles in Homogeneous Isotropic Turbulence
Title | The Rotation and Translation of Non-spherical Particles in Homogeneous Isotropic Turbulence PDF eBook |
Author | Margaret Byron |
Publisher | |
Pages | 159 |
Release | 2015 |
Genre | |
ISBN |
The motion of particles suspended in environmental turbulence is relevant to many scientific fields, from sediment transport to biological interactions to underwater robotics. At very small scales and simple shapes, we are able to completely mathematically describe the motion of inertial particles; however, the motion of large aspherical particles is significantly more complex, and current computational models are inadequate for large or highly-resolved domains. Therefore, we seek to experimentally investigate the coupling between freely suspended particles and ambient turbulence. A better understanding of this coupling will inform not only engineering and physics, but the interactions between small aquatic organisms and their environments. In the following pages, we explore the roles of shape and buoyancy on the motion of passive particles in turbulence, and allow these particles to serve as models for meso-scale aquatic organisms. We fabricate cylindrical and spheroidal particles and suspend them in homogeneous, isotropic turbulence that is generated via randomly-actuated jet arrays. The particles are fabricated with agarose hydrogel, which is refractive-index-matched to the surrounding fluid (water). Both the fluid and the particle are seeded with passive tracers, allowing us to perform Particle Image Velocimetry (PIV) simultaneously on the particle and fluid phase. To investigate the effects of shape, particles are fabricated at varying aspect ratios; to investigate the effects of buoyancy, particles are fabricated at varying specific gravities. Each particle type is freely suspended at a volume fraction of [Phi]=0.1%, for which four-way coupling interactions are negligible. The suspended particles are imaged together with the surrounding fluid and analyzed using stereoscopic PIV, which yields three velocity components in a two-dimensional measurement plane. Using image thresholding, the results are separated into simultaneous fluid-phase and solid-phase velocity fields. Using these simultaneous measurements, we examine particles' turbulent slip velocity and compare it to particles' quiescent settling velocity, which we measure directly. We observe that the slip velocity is strongly reduced relative to the quiescent case, and explore various mechanisms of particle loitering in turbulence. We further explore the relationship between the instantaneous particle velocity and the instantaneous fluid velocity, and develop a linear parametrization. By comparing our experimental data to a simple one-dimensional flow in the context of this parametrization, we elucidate aspects of slip velocity that are unique to turbulence. We obtain the particles' angular velocity by applying the solid-body rotation equation to velocity measurements at points inside the particle. We find that the expected value of angular velocity magnitude does not vary significantly with particle aspect ratio, as long as particles are nearly neutrally buoyant. Stronger effects on rotation are found for more negatively-buoyant particles. We also investigate particles' inheritance of vorticity from turbulent velocity fields, and find that particle rotation can be predicted by applying a spatial filter to fluid-phase vorticity. The results of this study will allow us to more accurately predict the motion of aspherical particles, giving new insights into oceanic carbon cycling, industrial processes, and other important topics. This analysis will also shed light onto biological questions of navigation, reproduction, and predator-prey interaction by quantifying the turbulence-driven behavior of meso-scale aquatic organisms, allowing researchers to sift out passive vs. active effects in a behaving organism. Lastly, processes that are directly dependent on particle dynamics (e.g., sediment transport, industrial processes) will be informed by our results.
Homogeneous Turbulence Dynamics
Title | Homogeneous Turbulence Dynamics PDF eBook |
Author | Pierre Sagaut |
Publisher | Springer |
Pages | 912 |
Release | 2018-03-23 |
Genre | Science |
ISBN | 3319731629 |
This book provides state-of-the-art results and theories in homogeneous turbulence, including anisotropy and compressibility effects with extension to quantum turbulence, magneto-hydodynamic turbulence and turbulence in non-newtonian fluids. Each chapter is devoted to a given type of interaction (strain, rotation, shear, etc.), and presents and compares experimental data, numerical results, analysis of the Reynolds stress budget equations and advanced multipoint spectral theories. The role of both linear and non-linear mechanisms is emphasized. The link between the statistical properties and the dynamics of coherent structures is also addressed. Despite its restriction to homogeneous turbulence, the book is of interest to all people working in turbulence, since the basic physical mechanisms which are present in all turbulent flows are explained. The reader will find a unified presentation of the results and a clear presentation of existing controversies. Special attention is given to bridge the results obtained in different research communities. Mathematical tools and advanced physical models are detailed in dedicated chapters.