Flow Measurement Methods and Applications

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Flow Measurement Methods and Applications

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by: Jim E. Hardy, Jim O. Hylton, Tim E. McKnight, Carl J. Remenyik, Francis R. Ruppel, Carl J. Remenyik


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Topics include: annular bypass, capillary sensor, discharge coefficient correlation, bypass annulus, string probe, flow calibration system, minor pressure losses, separated flow model, reflood test, connecting capillary tube, bypass flow path, standard volume flow, control valve resistance, valve characterization, dynamic pressure drop, gamma densitometer, vortex shedding flowmeter, transducer core, actual mass flow rate, valve rangeability, estimation error covariance matrix, flag probes, permanent pressure loss, drag disk, critical nozzle

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First Sentence:
Fluid flow processes are most commonly described using laws of conservation of mass and energy.


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 instrumentationandmdash;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 instrumentationandmdash;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.

From the Back Cover
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.

About the Author
J. E. HARDY has been a research staff member at the Oak Ridge National Laboratory in Oak Ridge, Tennessee, for over twenty years, concentrating in instrumentation and controls with an emphasis on the measurement of flow in harsh environments.

J. O. HYLTON is a researcher at the Instrumentation and Controls Division at the Oak Ridge National Laboratory. He has worked extensively in the area of thermal and fluid mechanics, including the development of flow measurement instrumentation.

T. E. McKNIGHT has worked for ten years at the Oak Ridge National Laboratory, predominantly in the measurement and calibration of fluid flow and other physical processes.

C. J. REMENYIK is Professor Emeritus at the University of Tennessee, Engineering Science, and Adjunct Researcher at the Oak Ridge National Laboratory. He has also worked for the aerospace industry.

F. R. RUPPEL is a senior instrumentation and controls engineer at Thermatrix Inc. in Knoxville, Tennessee. He has held engineering positions at Union Carbide in South Charleston, West Virginia, the Oak Ridge National Laboratory, and SEMATECH, the semiconductor consortium in Austin, Texas.


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