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- Herausgeber: John Wiley & Sons
- Kategorie: Fachliteratur
- Sprache: Englisch
This groundbreaking volume covers the significant advantages of wave technologies in the development of innovative machine building where high technologies with appreciable economic effect are applied. These technologies cover many industries, including the oil-and-gas industry, refining and other chemical processing, petrochemical industry, production of new materials, composite and nano-composites including, construction equipment, environmental protection, pharmacology, power generation, and many others. The technological problem of grinding, fine-scale grinding and activation of solid particles (dry blends) is disclosed. This task is common for the production of new materials across these various industries. At present in this sphere the traditional methods have reached their limits and in some cases are economically ineffective from both scientific and practical points of view. The authors have detailed, through their extensive groundbreaking research, how these new methods, based on wave technology, can be used to create new, more efficient and less expensive applications and materials for industry. From increasing oil recovery to building stronger machines more efficiently and creating more productive membrane separation devices, wave technology can be used as a fertile ground for product innovation and more efficient methods of production across a variety of industries. This book is the only one of its kind in the world and offers a unique and invaluable glance into this sophisticated and complicated scientific area that is only now being more fully utilized for its valuable benefits.
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Seitenzahl: 97
Veröffentlichungsjahr: 2015
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Contents
Cover
Half Title page
Title page
Copyright page
Preface
Chapter 1: Introduction: Capabilities and Perspectives of Wave Technologies in Industries and in Nanotechnologies
Chapter 2: Fragmentation and Activation of Dry Solid Components: Wave Turbulization of the Medium and Increasing Process Efficiency
2.1 Calcium Carbonate (limestone) Fragmentation
2.2 Wave Activation of Cements and Cement-limestone Compositions
2.3 Grinding Blast-furnace Sullage
2.4 Production of Coloring Pigment Based on Titanium Dioxide and Dolomitic Marble
2.5 Wave Treatment of Aluminium Oxide
Chapter 3: Wave Stirring (actuation) of Multicomponent Materials (dry mixes)
3.1 Technologic Experiments with Installations of Wave Mixing
Chapter 4: Wave Metering Devices and Dosage Metering of Loose Components
Chapter 5: Creating Automated Wave Treatment Trains of Dry Solid Components: High Efficiency in a Restricted Manufacturing Room
Chapter 6: Manufacturing and Wave Treatment Technologies of Emulsions, Suspensions and Foam/Skim
6.1 Stirring (actuation) Wave Technologies of Various Liquids, Including High-viscosity Media
6.2 Hydrodynamic Running (through-flowing) Wave Installations
6.3 Wave Technology for Stirring (actuation) of High-viscosity Media
6.4 Production of Cosmetic Cream
6.6 Production of Finely-dispersed, Chemically Precipitated Barium Sulphate With the Assigned Particle Size
6.7 Accelerating Fermentation of Sponge Wheat Dough After Wave Treatment
Chapter 7: Wave Mixing of Epoxy Resin with Nanocarbon Micro-additives: Production of Composite Materials
7.1 Experimental Studies of Mixing the Epoxy Resin with Fullerenes
7.2 Experimental Studies Mixing Epoxy Resin Technical Carbon
7.3 Experimental Studies of Mixing Epoxy Resin with Carbon Nanotubes
7.4 Production of Highly-filled Composite Materials with Wave Technologies
7.5 Using the Installation of Wave Mixing for the Preparation of Polymer-cement and Cement Composite Materials Reinforced by Polymer and Inorganic Fibers
7.6 Production of Organoclay
Chapter 8: Wave Technologies for Food, Including Bread Baking and Confectionary Industries
Chapter 9: Wave Technologies in Oil Production: Improving Oil, Gas and Condensate Yield
Chapter 10: Wave Technologies in Ecology and Energetics
10.1 Production of Mixed Fuels and Improvement in Combustion Efficiency
Chapter 11: Stabilizing Wave Regimes, Damping Noise, Vibration and Hydraulic Shocks Pipeline Systems
Chapter 12: Wave Technologies in Engineering
Chapter 13: Wave Technologies in Oil Refining, Chemical and Petrochemical Industries
Chapter 14: Conclusions: On Wave Engineering
Literature (the Russian-language original is at the end)
Index
Wave Technology in Mechanical Engineering
Copyright © 2015 by Scrivener Publishing LLC. All rights reserved.
Co-published by John Wiley & Sons, Inc. Hoboken, New Jersey, and Scrivener Publishing LLC, Salem, Massachusetts. Published simultaneously in Canada.
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Library of Congress Cataloging-in-Publication Data:
ISBN 9781119117605
Preface
The first and second editions of this book created great interest among a broad spectrum of readers. With the entire run of the first editions out of print, the need occurred to reissue. Also, new results obtained after the first editionsubstantially broadened application capabilities of wave and oscillation phenomena for the creation of high technologies in the industries. Therefore, this third edition is significantly reworked and expanded.
Major attention in reworking the book was devoted to issues of the practical implementation of wave technologies in specific industries. It relates to the engineering, chemical industry, materials technology, construction, food, oil and gas production industry, etc. Subjected to reworking were sections related to the wave activation of cements and cement-limestone compositions with respect to facility of understanding and demonstrability of the presented material. The section devoted to the issues of loose component dosage metering and wave metering devices was amended.
The section devoted to wave technologies of developing composite materials including nanocomposite materials was considerably updated. This technology enables, on a conceptually new level, the solving of many currently urgent tasks for producing finely dispersed emulsions and suspensions, including high-viscosity dispersion medium as well as highly-filled composite materials with finely dispersed fillers.
The authors also used results obtained by a number of employees at the Centre of nonlinear wave mechanics and technology RAN to whom the authors are grateful [1–12].
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