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Single-source handbook to the selection, design, specification, and installation of flowmeters measuring liquid, gas, and steam flows. Miller (president, RW Miller Consulting) supplies the key information on seven-place equation constants and simplifying equations and includes many examples, graphs, and tables to help improve performance, and save time and expense. The revised edition features the latest ISO, ASME, and ANSI-related standards, meter influence quantities for flowmeters, and proposed orifice and nozzle equations. The nine appendices present discussions and proofs, and the generalized properties of liquids and gas. Provides definitive information on selecting, sizing, and performing pipe-flow-rate calculations, using the latest ISO and ANSI standards in both SI and US equivalents. Also presents physical property data, support material for important fluid properties, accuracy estimation and installation requirements for all commonly used flowmeters, guides to meter selection and accuracy, and coverage of linear/differential producers. Includes tabular and graphical representations of equations and extensive cross-referenced appendices.
Practical, comprehensive advice on the design, operation, and performance of flowmeters.
The Concise Industrial Flow Measurement Handbook: A Definitive Practical Guide covers the complete range of modern flow measuring technologies and represents 40 years of experiential knowledge within a wide variety of industries, and from more than 5000 technicians and engineers who have attended the author’s workshops. This book covers all the current technologies in flow measurement, including high accuracy Coriolis, ultrasonic custody transfer, and high accuracy magnetic flowmeters. The book also discusses flow proving and limitations of different proving methods. This volume contains over 300 explanatory drawings and graphs and is presented in a form suitable for both the beginner, with no prior knowledge of the subject, as well as the more advanced specialist. This book is aimed at professionals in the field, including chemical engineers, process engineers, instrumentation and control engineers, and mechanical engineers.
Plant Flow Measurement and Control Handbook is a comprehensive reference source for practicing engineers in the field of instrumentation and controls. It covers many practical topics, such as installation, maintenance and potential issues, giving an overview of available techniques, along with recommendations for application. In addition, it covers available flow sensors, such as automation and control. The author brings his 35 years of experience in working in instrumentation and control within the industry to this title with a focus on fluid flow measurement, its importance in plant design and the appropriate control of processes. The book provides a good balance between practical issues and theory and is fully supported with industry case studies and a high level of illustrations to assist learning. It is unique in its coverage of multiphase flow, solid flow, process connection to the plant, flow computation and control. Readers will not only further understand design, but they will also further comprehend integration tactics that can be applied to the plant through a step-by-step design process that goes from installation to operation. - Provides specification sheets, engineering drawings, calibration procedures and installation practices for each type of measurement - Presents the correct flow meter that is suitable for a particular application - Includes a selection table and step-by-step guide to help users make the best decision - Cover examples and applications from engineering practice that will aid in understanding and application
Flow Measurement Handbook is a reference for engineers on flow measurement techniques and instruments. It strikes a balance between laboratory ideas and the realities of field experience and provides practical advice on design, operation and performance of flowmeters. It begins with a review of essentials: accuracy, flow, selection and calibration methods. Each chapter is then devoted to a flowmeter class and includes information on design, application installation, calibration and operation. Among the flowmeters discussed are differential pressure devices such as orifice and Venturi, volumetric flowmeters such as positive displacement, turbine, vortex, electromagnetic, magnetic resonance, ultrasonic, acoustic, multiphase flowmeters and mass meters, such as thermal and Coriolis. There are also chapters on probes, verification and remote data access.
Flow meters measure the volumetric flow rate in a pipeline. Most meters are based on deriving a signal from the fluid flow and calibrating the signal against the volumetric flow rate. The calibration is done in fully-developed flow, and the same state of flow must exist at the meter’s position when it is in practical use. Because the field of flow metering has been neglected by fluid mechanicists for a long time, this book addresses two major fluid mechanical problems in flow metering: the analysis of signal generation in turbulent pipe flow, which explains the function of the meter beyond a simple calibration, and the possible use of a meter in non-developed flows. These problems are investigated with reference to, and examples from, a variety of meters, e.g. ultrasound cross-correlation meters, vortex meters, and turbine meters. Studying these problems requires consideration of specific phenomena in turbulent non-developed pipe flow, as caused by installations, and finding special solutions with signal processing, both of which are included in the book.
Techniques and Topics in Flow Measurement covers the applications and techniques of flow measurement. This definitive book provides guidelines for choosing appropriate techniques and assuring valid measurements as well as describes methods for treatment of calibration data in fluid flow under various conditions. The book also covers three systems of units: the SI system, the English Absolute Dimensional system, and the English Engineering system. Commonly used - and often misused - variables such as force, weight, and pressure are defined, and the relationships between the systems for these common variables are summarized. One of the many unique features of Techniques and Topics in Flow Measurement is the number of ready-to-use tables included throughout the text. Tables are provided for such commonly encountered variables as the saturation vapor pressure of water; the composition of dry air; the compressibility factor for air; air-free and air-saturated water density; viscosity of dry air, nitrogen, and other gases; and specific heat/specific volume ratios for dry air, water vapor, and moist air. Another unique feature of this book is the number of highly relevant examples. The author includes examples/exercises that demonstrate applications for density calculations; water vapor mixing ratio determination; gas viscosity interpolation; NIST guideline applications; buoyancy corrections; and more.
Utilize the Latest Supportability Tools and Methods to Design Durable and Maintainable Systems Engineers in both the commercial and military sectors can rely on the Supportability Engineering Handbook for complete support criteria that ensure the performance of products ranging from automobiles to spacecraft. This one-of-a-kind resource offers the latest supportability tools and methods for designing complex systems that will last a long time and be easy to maintain in actual use. World-renowned supportability and logistics expert James V. Jones shows readers how to create supportable design solutions through effective system architecting, system and design engineering, and integration. He fully analyzes reliability, maintainability, and testability, and also explores every aspect of supportability. In addition, the author presents detailed coverage of reliability-centered maintenance...safety and human factors engineering...cost of ownership...supportability assessment and testing... configuration management and control...and much more. The Supportability Engineering Handbook features: Step-by-step guidelines for implementing supportability State-of-the-art measurement methods and tools A wealth of cutting-edge system design knowledge An expert critique of commercial off-the-shelf applications Achieve Optimal Supportability in the Design of Complex Systems • The Evolving Supportability Design Solution • Creating the Design Solution through System Architecting, System Engineering, Design Engineering, and Integration Engineering • Reliability, Maintainability, and Testability Engineering • Supportability Characteristics • Reliability Centered Maintenance • Safety and Human Factors Engineering • Cost of Ownership • Supportability Analysis • Supportability Assessment and Testing • Configuration Management and Control • Special Considerations: Software, Off the Shelf Items • Abbreviations and Acronyms • Glossary of Terms