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Hydrodynamic And Mass Transfer In Vortical Type Devices
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Book Synopsis Hydrodynamic and Mass Transfer in Vortical-Type Devices by : Regina R. Usmanova
Download or read book Hydrodynamic and Mass Transfer in Vortical-Type Devices written by Regina R. Usmanova and published by Nova Publishers. This book was released on 2008 with total page 122 pages. Available in PDF, EPUB and Kindle. Book excerpt: The monograph is devoted to modern methods of calculation and the designing of devices of vortical type providing realisation of effective processes of division and mass transfer. In the book the designs of vortical devices are considered, the available experimental material on research of de-dusters is systematised. Interaction of structure of current of a liquid and gas with design parameter of the device is revealed, the generalised characteristics of hydrodynamics of streams are offered. The extensive experimental material on regimes of movement of a liquid film in the device as empirical dependencies is generalised. Methods of calculation of efficiency mass transfer in devices of the vortical type, taking into account aerohydrodynamical laws of stream of gas and a liquid are offered. Results of the work can be used development and designing of vortical devices for processes for dust separation.
Book Synopsis Non-Linear Mass Transfer and Hydrodynamic Stability by : C.B. Boyadjiev
Download or read book Non-Linear Mass Transfer and Hydrodynamic Stability written by C.B. Boyadjiev and published by Elsevier. This book was released on 2000-08-16 with total page 515 pages. Available in PDF, EPUB and Kindle. Book excerpt: Surveyed in this book are the kinetics of non-linear mass transfer and its effects on hydrodynamic stability in systems with intensive interphase mass transfer, in electrochemical systems with high current density and in chemically reacting systems. In Part 1 the non-linear mass transfer as a result of an intensive interphase mass transfer in the gas (liquid)-solid surface, gas-liquid and liquid-liquid systems is considered in the duffusion boundary layer approximation as well as in flat channel taking the longitudinal diffusion into account. The influence of the direction of the intensive interphase mass transfer on heat transfer and multi-component mass transfer is illustrated. Part 2 discusses non-linear mass transfer in electrochemical systems with high current density using the examples of the anode dissolving of metals in the electrolyte flow and the electro-separation of metals out of concentrated solutions. The theory of the measured electrochemical treatment of metals and alloys, which is a method of wide practical use, has been elaborated on this basis. In Part 3 the non-linear mass transfer in chemically reacting systems is considered in the cases of: non-linearity of the equations of the chemical reaction's kinetics and intensive interphase mass transfer or thermo-capillary effect due to chemical reactions. On this basis, the mechanisms and the macro-kinetics of the chemical transformations in the gas-liquid systems are discussed. Part 4 is dedicated to the chemical reaction kinetics in stationary two phase systems at an arbitrary contact time between phases. In Part 5 the effects of concentration gradients are considered in the approximations of the linear theory of the hydrodynamic stability of almost parallel flows. In systems with intensive interphase mass transfer, the Marangoni effect could also be observed, beside the effect of non-linear mass transfer. A comparative analysis of both effects is made in this book.
Book Synopsis Transport Processes in Chemically Reacting Flow Systems by : Daniel E. Rosner
Download or read book Transport Processes in Chemically Reacting Flow Systems written by Daniel E. Rosner and published by Courier Corporation. This book was released on 2012-04-30 with total page 623 pages. Available in PDF, EPUB and Kindle. Book excerpt: Introduction to the transport of energy, mass, and momentum in chemically reacting fluids for graduate or undergraduate students with no prior background in fluid mechanics. Solutions to selected exercises.
Book Synopsis Hydrodynamics and Mass Transfer in Heterogeneous Systems by : Radmila Garić-Grulovic
Download or read book Hydrodynamics and Mass Transfer in Heterogeneous Systems written by Radmila Garić-Grulovic and published by . This book was released on 2011 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Hydrodynamics and Mass Transfer in Heterogeneous Systems.
Book Synopsis Micro-scale Studies on Hydrodynamics and Mass Transfer of Dense Carbon Dioxide Segments in Water by : Ning Qin
Download or read book Micro-scale Studies on Hydrodynamics and Mass Transfer of Dense Carbon Dioxide Segments in Water written by Ning Qin and published by . This book was released on 2017 with total page 248 pages. Available in PDF, EPUB and Kindle. Book excerpt: Microfluidic technologies have started to show their potential in assisting with the probes into the complicated mechanical-chemical interactions of multiphase fluids at microscale geometries (e.g., regular channels, porous media micromodels). The benefits of appropriately implementing microfluidics in such research efforts may include, but are not limited to: (1) small-dimensions facilitated analogous mechanical behaviors, (2) precise and reliable controls over relevant operating parameters of the fluids, (3) approximated reproduction of the hydrostatic or hydrodynamic circumstances, and (4) implementations of advanced visualization technologies such as microscopic imaging in order to reveal the dynamic processes involved in those multi-fluid interactions. Following the early studies on two-phase flow such as oil and water in microscale devices driven by the understanding of oil recovery process and mechanisms, carbon dioxide (CO2) has drawn increasing attention because of their environmental impact such as greenhouse gas effects. Most studies target either enhancing the chemical reactions by using pressurized CO2 as a solvent or revealing physical properties as well as mass transfer performance of gaseous CO2 in common hydrodynamic scenarios. However, dense CO2 including liquid and supercritical states are rarely touched, which is mainly due to the technical difficulties in working with extreme pressures (tens to hundreds times of atmospheric pressure) and elevated temperatures (> 31ʻC). Driven by the literature voids, this thesis presents some preliminary studies of the hydrodynamic issues and mass transfer of dense CO2 in a form of flowing segments in microchannels. Prior to the commencement of any experimental work concerning dense CO2, a system capable of working at extreme pressures reliably and safely needs to be build first. Chapter 3 details the building of an experimental system which is dedicated to two phase microfluidic studies, especially for those related to extreme pressure/temperature conditions. Based on two principles of being extreme conditions durable and leakage free., a few goals, namely, reliability, flexibility and coordinability of this system are achieved. The first part of this thesis (Chapter 4) presents an experimental study of a fluid pair, namely, liquid CO2 and deionized (DI) water, in a micro T-junction, where liquid CO2 and DI water are injected from the side and the main channel of the T-junction, respectively. Drop flow and co-flow are identified as two main flow regimes subjected to the various flow rate ratios applied. By focusing on the drop flow, a full period of liquid CO2 drop generation is divided into three stages, and each stage is meticulously described in terms of the interfacial developments (e.g., interface profile, pressures across the interface, size variations). The mass transfer mechanisms including CO2 hydration, diffusion on a perpendicular dimension of the interface and the advection parallel to the interface are considered and discussed in terms of their effects in CO2 molecules transport. An overall theoretical analysis of such mechanisms verifies that the transported CO2 portion is a small quantity compared with the bulk CO2 stream. Based on this verification, the generated liquid CO2 drop size, speed, and the spacing development within one drop generation period are probed. A formulation of drop size with the flow rate ratio shows a magnified effect of the later factor, which is interpreted by the extended time scale of an 'elongating-squeezing' stage of the period. Drop speed results show that they can be approximated by dividing the total flow rates over the channel cross-sectional area. And the speed differences between the generated drop and the emerging one in the T-junction lead to a model which details the spacing development within one drop generation period. The model is well validated by experimental results. The second (Chapter 5) and the third part (Chapter 6) of the thesis are devoted to the investigations of hydrodynamics and mass transfer of liquid CO2 and scCO2 drops traveling simultaneously with water in a long straight microchannel (~15mm long), respectively. The production of such CO2 drops is realized by using the aforementioned micro T-junction. Distinctly, these studies focus on the drop size and drop speed at three specified positions of the channel and the mass transfer caused shrinkage of the CO2 drop quantified by the decreasing drop length. In order to calculate the mass transfer coefficient of CO2 drops, the detailed geometries of a Taylor drop in the square microchannel with a presence of wall films that separate the drop from the channel wall are considered, and consequently, the surface area and the volume of the drop are formulated based on the drop dimensions, channel geometries, contact angle and estimated film thicknesses. Furthermore, a specific mathematical model is developed to calculate the mass transfer coefficients based on the drop length reductions and drop flowing time in the channel. Discussions on these results indicate that surface-volume ratio and drop flow time are the two main factors in controlling the hydrodynamic shrinkage of the liquid CO2 and scCO2 drops. In addition, pressure declines of segmented flows in microchannels are considered and their effects are evaluated based on a pressure decline model and the Peng-Robinson equation of state (Eos) as well as the estimated initial pressures at the T-junction. Calculations of the resulted volume changes from the pressure declines show that the influences are small, and the observed CO2 drop shrinkage is confidently attributed to the mass transfer across the interface between the CO2 phase and water phase. The last part (Chapter 7) presents a numerical study of the hydrodynamics of one single liquid CO2 drop and one single scCO2 drop traveling in a straight microchannel simultaneously with water as the carrier fluid. A two-dimensional (2D) computational domain of the straight microchannel is configured based on the experimental observations. Three liquid CO2 cases and three scCO2 cases are studied. It is found that the computed drop is disk-like shape encapsulated by thin films that separate the drop from the channel walls. The predicated film thicknesses agree very well with the literature. Besides, the flow domain within CO2 drops could be mainly composed of a few vortex regions, and small vortex regions at the front and the back cap of the drop start to vanish with increased velocities. Analysis of the mechanisms causing the vortexes is provided. The interfacial CO2 distributions of the drop show that both diffusion and local relative convection at the meniscus regions contribute to the concentration profile. Although no significant drop shrinkage is observed for typical Taylor drops, the one for the case with the highest capillary number (Ca ~ 10-2) defined from its pure diffusional gradient profile showed a similar development tendency over time as its experimental counterpart in Chapter 6.
Book Synopsis Hydrodynamics and Mass Transfer in Packed Columns and Their Applications for Supercritical Separations by : Geert Feye Woerlee
Download or read book Hydrodynamics and Mass Transfer in Packed Columns and Their Applications for Supercritical Separations written by Geert Feye Woerlee and published by . This book was released on 1997 with total page 216 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Download or read book Hydrodynamics written by Harry Schulz and published by BoD – Books on Demand. This book was released on 2011-10-26 with total page 438 pages. Available in PDF, EPUB and Kindle. Book excerpt: The constant evolution of the calculation capacity of the modern computers implies in a permanent effort to adjust the existing numerical codes, or to create new codes following new points of view, aiming to adequately simulate fluid flows and the related transport of physical properties. Additionally, the continuous improving of laboratory devices and equipment, which allow to record and measure fluid flows with a higher degree of details, induces to elaborate specific experiments, in order to shed light in unsolved aspects of the phenomena related to these flows. This volume presents conclusions about different aspects of calculated and observed flows, discussing the tools used in the analyses. It contains eighteen chapters, organized in four sections: 1) Smoothed Spheres, 2) Models and Codes in Fluid Dynamics, 3) Complex Hydraulic Engineering Applications, 4) Hydrodynamics and Heat/Mass Transfer. The chapters present results directed to the optimization of the methods and tools of Hydrodynamics.
Book Synopsis Quæstio juris controversi an impubes negotiorum gestor esse possit by :
Download or read book Quæstio juris controversi an impubes negotiorum gestor esse possit written by and published by . This book was released on with total page 8 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Hydrodynamics, Mass and Heat Transfer in Chemical Engineering by : Andrei D Polyanin
Download or read book Hydrodynamics, Mass and Heat Transfer in Chemical Engineering written by Andrei D Polyanin and published by CRC Press. This book was released on 2019-08-30 with total page 408 pages. Available in PDF, EPUB and Kindle. Book excerpt: Hydrodynamics, Mass and Heat Transfer in Chemical Engineering contains a concise and systematic exposition of fundamental problems of hydrodynamics, heat and mass transfer, and physicochemical hydrodynamics, which constitute the theoretical basis of chemical engineering in science. Areas covered include: fluid flows; processes of chemical engineering; mass and heat transfer in plane channels, tubes and fluid films; problems of mass and heat transfer; the motion and mass exchange of power-law and viscoplastic fluids through tubes, channels, and films; and the basic concepts and properties of very specific technological media, namely foam systems. Topics are arranged in increasing order of difficulty, with each section beginning with a brief physical and mathematical statement of the problem considered, followed by final results, usually given for the desired variables in the form of final relationships and tables.
Book Synopsis Liquid Spray from Nozzles by : Nikolay N. Simakov
Download or read book Liquid Spray from Nozzles written by Nikolay N. Simakov and published by Springer. This book was released on 2019-05-10 with total page 194 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book advances a new view of phenomena associated with the spray of liquids from a nozzle in a gas. New results of experimental studies and numerical simulation of the hydrodynamics of an emerging two-phase flow and accompanying interphase heat and mass transfer therein are presented. The book is ideal for specialists who develop and use technologies involving the spraying of liquids in a gas, such as burning and pyrolysis of liquid hydrocarbons, granulation and drying of polymers, and dust and gas scrubbing.
Book Synopsis Hydrodynamics and Mass Transfer Studies in High Pressure Gas-liquid and Gas-liquid-solid Fluidization by : Wai Man R. Lau
Download or read book Hydrodynamics and Mass Transfer Studies in High Pressure Gas-liquid and Gas-liquid-solid Fluidization written by Wai Man R. Lau and published by . This book was released on 2003 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Abstract: Slurry bubble columns and gas-solid fluidized bed reactors are some of the most commonly used industrial processes. Considerable interests have been recognized in the field of physical, chemical, petrochemical, electrochemical, and biochemical operations (Fan, 1989). In these reactor systems, large axial dispersion of phases and high flow patterns can be achieved by the excellent macromixing characteristics. It also provides excellent heat and mass transfer without the aid of external mechanisms and relatively easy operation. Despite the advantages of operations, the transport behavior in these systems is very complex and a comprehensive knowledge of the hydrodynamics, heat and mass transfer and mixing are required for successful application of these systems. Some aspects of the fundamental characteristics of evaporative liquid jets in gas-liquid-solid flows are studied and some pertinent literature is reviewed. It is found that the injection of an evaporative liquid jet decreases the minimum fluidization velocity at a high pressure due to the additional gas flow generated from liquid evaporation. Fluidizing gas velocities have no significant effect on the jet penetration length in a dense phase fluidized bed while it reduces the radial dispersed distance of the evaporative liquid. The tomographic images of liquid nitrogen injection in a dense phase fluidized bed indicate a distribution of reduced bubble sizes compared to a dry bed. The hydrodynamics, gas-liquid mass transfer properties and liquid entrainment phenomena in a high pressure and high temperature bubble column is investigated. Effects of pressure on hydrodynamics and mass transfer properties are mainly through the change in gas and liquid physical properties, which in turn changes the bubble dynamics that govern the transport phenomena. Experimental results show that liquid velocities have a direct influence on kl while other factors have a dominant effect on the interfacial area over kl. Liquid entrainment in bubble columns is controlled by the droplet formation during bubble bursting at interface. Effect of pressure on liquid entrainment is to due to the higher drag force exerted on the liquid droplet with higher gas density and the formation of smaller droplet by the smaller bubbles at high pressure.
Book Synopsis Hydrodynamics and Mass Transfer in Mass Transfer in Upwards Cocurrent Gas-liquid Annular Flow in Vertical Tubes by : A.K. Jagota
Download or read book Hydrodynamics and Mass Transfer in Mass Transfer in Upwards Cocurrent Gas-liquid Annular Flow in Vertical Tubes written by A.K. Jagota and published by . This book was released on 1970 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Mass Transfer in Sheared Suspensions of Neutrally Buoyant Particles by : Luying Wang
Download or read book Mass Transfer in Sheared Suspensions of Neutrally Buoyant Particles written by Luying Wang and published by . This book was released on 2008 with total page 202 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Scientific and Technical Aerospace Reports by :
Download or read book Scientific and Technical Aerospace Reports written by and published by . This book was released on 1991 with total page 910 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Experimental Hydrodynamics for Flow Around Bodies by : Viktor V. Babenko
Download or read book Experimental Hydrodynamics for Flow Around Bodies written by Viktor V. Babenko and published by Academic Press. This book was released on 2021-01-29 with total page 675 pages. Available in PDF, EPUB and Kindle. Book excerpt: Experimental Hydrodynamics for Flow around Bodies explains complex novel experimental methodologies to solve a wide range of important flow problems in industry and research. The book starts by examining the fundamental physical laws necessary for the optimization of techniques for hydro-aeromechanics, heat engineering, and other disciplines related to flow. The reader is then provided with detailed explanations of novel experimental methods, along with the results of physical research. These results are also necessary for the construction of theoretical models that provide improved descriptions for numerous problems in various scientific fields. Frequent discussions, examples of practical applications throughout the text, and foundational, theoretical materials help a range of readers engage and apply these methods to problems in fields including drag reduction, noiseless movement, optimal maneuvering, intense heat transfer, control of separated vortices, wind power, economical energy consumption, and more. Provides instructions on the set up of innovative experiments for drag reduction that will be of great interest to researchers in aerospace, marine and automotive engineering Describes, in detail, a variety of novel experiments to investigate boundary layer flow, together with experimental data that can be used with computational models Assists with bio-inspired hydrodynamic design by providing models of a waving fin mover and investigations of analogs of hydrobiont skin covers
Book Synopsis Advances in Industrial Mixing by : Suzanne M. Kresta
Download or read book Advances in Industrial Mixing written by Suzanne M. Kresta and published by John Wiley & Sons. This book was released on 2016-03-11 with total page 1035 pages. Available in PDF, EPUB and Kindle. Book excerpt: Advances in Industrial Mixing is a companion volume and update to the Handbook of Industrial Mixing. The second volume fills in gaps for a number of industries that were not covered in the first edition. Significant changes in five of the fundamental areas are covered in entirely updated or new chapters. The original text is provided as a searchable pdf file on the accompanying USB. This book explains industrial mixers and mixing problems clearly and concisely. Gives practical insights by the top professionals in the field, combining industrial design standards with fundamental insight. Details applications in 14 key industries. Six of these are new since the first edition. Provides the professional with information he/she did not receive in school. Five completely rewritten chapters on mixing fundamentals where significant advances have happened since the first edition and seven concise update chapters which summarize critical technical information.
Book Synopsis Micro and Macro Mixing by : Henning Bockhorn
Download or read book Micro and Macro Mixing written by Henning Bockhorn and published by Springer Science & Business Media. This book was released on 2009-12-26 with total page 345 pages. Available in PDF, EPUB and Kindle. Book excerpt: The homogenization of single phase gases or liquids with chemical reactive components by mixing belongs to one of the oldest basic operations applied in chemical engineering. The mixing process is used as an essential step in nearly all processes of the chemical industry as well as the pharmaceutical and food ind- tries. Recent experimentally and theoretically based results from research work lead to a fairly good prediction of the velocity fields in differend kinds of mixers, where as predictions of simultaneously proceeding homogeneous chemical re- tions, are still not reliable in a similar way. Therefore the design of equipment for mixing processes is still derived from measurements of the so called “mixing time” which is related to the applied methods of measurement and the special - sign of the test equipment itself. The cooperation of 17 research groups was stimulated by improved modern methods for experimental research and visualization, for simulations and nume- cal calculations of mixing and chemical reactions in micro and macro scale of time and local coordinates. The research work was financed for a six years period within the recently finished Priority Program of the German Research Foundation (DFG) named “Analysis, modeling and numerical prediction of flow-mixig with and without chemical reactions (SPP 1141)”. The objective of the investigations was to improve the prediction of efficiencies and selectivities of chemical re- tions on macroscopic scale.
