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The handbook has been composed on the basis of processing, systematization and classification of the results of a great number of investigations published at different time. The essential part of the book is the outcome of investigations carried out by the author. The present edition of this handbook should assist in increasing the quality and efficiency of the design and usage of indutrial power engineering and other constructions and also of the devices and apparatus through which liquids and gases move.
A sourcebook offering an up-to-date perspective on a variety of topics and using practical, applications-oriented data necessary for the design and evaluation of internal fluid system pressure losses. It has been prepared for the practicing engineer who understands fluid-flow fundamentals.
The standard in the field for computing pipe sizes, pumping power, and pressure drops in ducts and piping. It is of value to all design engineers in chemical, mechanical, civil, petroleum, HVAC, and nuclear industries. The Handbook of Hydraulic Resistance, 3rd Edition, is the updated and expanded new edition of this bestselling reference. New topics considered include the elements of aerodynamics and hydraulics of pressure systems, as well as the physico-mechanical processes in the elements of pipelines. The book also offers recommendations regarding the calculation and selection of the elements of networks and means for decreasing the fluid resistance in shaped parts of pipelines. Hundreds of sketches, diagrams, and graphs are used to illustrate key concepts. The Handbook of Hydraulic Resistance, 3rd Edition, is an invaluable reference for engineers and researchers in the fields of mechanical, nuclear, power, civil, chemical, HVAC, and petroleum engineering.
Maintaining and enhancing the high standards and excellent features that made the previous editions so popular, this book presents engineering and application information to incorporate, control, predict, and measure the performance of all fluid power components in hydraulic or pneumatic systems. Detailing developments in the ongoing "electronic re
Every one of the many millions of cars manufactured annually worldwide uses shock absorbers, otherwise known as dampers. These form a vital part of the suspension system of any vehicle, essential for optimizing road holding, performance and safety. This, the second edition of the Shock Absorber Handbook (first edition published in 1999), remains the only English language book devoted to the subject. Comprehensive coverage of design, testing, installation and use of the damper has led to the book's acceptance as the authoritative text on the automotive applications of shock absorbers. In this second edition, the author presents a thorough revision of his book to bring it completely up to date. There are numerous detail improvements, and extensive new material has been added particularly on the many varieties of valve design in the conventional hydraulic damper, and on modern developments such as electrorheological and magnetorheological dampers. "The Shock Absorber Handbook, 2nd Edition" provides a thorough treatment of the issues surrounding the design and selection of shock absorbers. It is an invaluable handbook for those working in industry, as well as a principal reference text for students of mechanical and automotive engineering.
This book is concerned with the steady state hydraulics of natural gas and other compressible fluids being transported through pipelines. Our main approach is to determine the flow rate possible and compressor station horsepower required within the limitations of pipe strength, based on the pipe materials and grade. It addresses the scenarios where one or more compressors may be required depending on the gas flow rate and if discharge cooling is needed to limit the gas temperatures. The book is the result of over 38 years of the authors' experience on pipelines in North and South America while working for major energy companies such as ARCO, El Paso Energy, etc.
Describes such problems as liquid/gas flows transverse to flow direction, hydraulic and hydrodynamic methods of calculating the equalizing effects of drag and velocity profiles. It presents theoretical and applied discussions and calculation procedures for aerodynamics in the design and operation of industrial equipment. The text uniquely assembles both theoretical and applied discussions of physical processes necessary for design efficiency.