The Concise Industrial Flow Measurement Handbook


Book Description

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.




Flow Measurement Handbook


Book Description

Practical, comprehensive advice on the design, operation, and performance of flowmeters.




Flow Measurement Handbook


Book Description

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 Measurement Methods and Applications


Book Description

A practical guide to cutting-edge techniques for flow measurement and control Unlike any other book on the subject, this volume employs practical applications to illustrate flow measurement techniques in industrial processes. Drawing on their work at the Oak Ridge National Laboratory, five leading researchers present applications that test the limits of commercial flow instrumentation-in harsh environments, wide rangeability, and a host of challenging situations encountered in research and industry. This approach gives the reader highly effective tools for use in tackling a broad range of difficult flow measurement problems. It offers tremendous insight into what flow measurement is all about, from the underlying principles of the methodologies to state-of-the-art instrumentation-including such innovations as "smart" flow sensors. Introducing terminology, properties, units, and flow meters classification, the book: * Details signal conditioning and analysis techniques that will produce meaningful results * Offers tips on selecting the appropriate method for a given application * Shows how modeling can improve mass flow metering accuracy * Covers flow calibration and standards, as well as issues related to cost, maintenance, and ease-of-use of instruments * Addresses the effect of measurement uncertainty on calibration and field measurements. Clear, concise, and generously illustrated, Flow Measurement Methods and Applications is an invaluable resource for researchers and graduate students in physics, mechanical engineering, chemical engineering, and instrument engineering. It is a must-have reference for anyone wishing to assess flow processes accurately and reliably in the real world.




Flow Measurement


Book Description

Fully illustrated with diagrams, tables, and formulas, Flow Measurement covers virtually every type of flow meter in use today. Béla G. Lipták speaks on Post-Oil Energy Technology on the AT&T Tech Channel.




Flow, Level and Pressure Measurement in the Water Industry


Book Description

This is a definitive guide for engineers to the actual and developing practice in this important area, which is not only essential to those involved in water supply and sewage treatment but also important to those involved in any process industry where fluid flow plays a part. There are numerous benefits, including efficiency, cost saving and product quality, associated with the use of appropriate instrumentation in any industry. The advantages of effective measurement of flow, level and pressure in the water industry also include safety, hygiene and security of supply. Despite similarities with other process industries, the requirements of the water industry are unique in many ways. This book is the first to describe actual and developing practice in this exciting field for application of new instruments and techniques. Traditionally instrumentation used to measure water flows and levels was mechanical, but a new generation of electromechanical and electronic systems are now available. Much of the instrumentation described in this work is common to all process industries, though never before have operational and technical details used in the water industry have been described explicitly. Graham Fowles is Instrumentation, Control and Automation Controller at Severn Trent Water, UK. He has been an instrument engineer for 25 years, and has spent the last 20 years in the water industry. The measurement techniques and instruments he describes are applicable to all stages of the water cycle, including river monitoring, water supply, distribution and metering, and sewage treatment and disposal. The book is a definitive guide for water engineers which will also be of interest to any engineer concerned with fluid flow, such as in the petrochemical and food industries. - Control & Instrumentation, March 1994







Plant Flow Measurement and Control Handbook


Book Description

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


Book Description

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.




Fluid Flow Measurement


Book Description

There is a tendency to make flow measurement a highly theoretical and technical subject but what most influences quality measurement is the practical application of meters, metering principles, and metering equipment and the use of quality equipment that can continue to function through the years with proper maintenance have the most influence in obtaining quality measurement. This guide provides a review of basic laws and principles, an overview of physical characteristics and behavior of gases and liquids, and a look at the dynamics of flow. The authors examine applications of specific meters, readout and related devices, and proving systems. Practical guidelines for the meter in use, condition of the fluid, details of the entire metering system, installation and operation, and the timing and quality of maintenance are also included. This book is dedicated to condensing and sharing the authors' extensive experience in solving flow measurement problems with design engineers, operating personnel (from top supervisors to the newest testers), academically-based engineers, engineers of the manufacturers of flow meter equipment, worldwide practitioners, theorists, and people just getting into the business. - The authors' many years of experience are brought to bear in a thorough review of fluid flow measurement methods and applications - Avoids theory and focuses on presentation of practical data for the novice and veteran engineer - Useful for a wide range of engineers and technicians (as well as students) in a wide range of industries and applications