Die Durchflußmessung ist eine wichtige Komponente der Verfahrenssteuerung in der Industrie. Dieses Buch bietet Lesern die Möglichkeit, ihre eigenen Ansätze für aktuelle Fließanwendungen zu entwickeln. Mit wertvollen Informationen für all jene, die über bestehende Hardware hinaus individuelle Lösungen für ihre Fließprobleme finden müssen. Es gibt eine kurze Einführung in die Durchflußmessung, in Terminologie und Definitionen, in Eigenschaften, Einheiten und Klassifikation von Techniken und Meßinstrumenten. Außerdem werden anspruchsvolle Anwendungen behandelt, die Meßprobleme und Lösungen verdeutlichen sowie Grundlagen der Meßtechnik inklusive dazugehöriger Apparatur. (02/99)
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.
General Concepts of Flow and Flow Instrumentation. Inferential Flow Measurement. Two-Phase Flow Applications. Flow Measurements in Harsh Environments. Using Modeling to Improve Mass Flowmetering Accuracy. Flowmeter Calibration Methods. A New Gravimetric Flow Calibrator. Index.
Show moreDie Durchflußmessung ist eine wichtige Komponente der Verfahrenssteuerung in der Industrie. Dieses Buch bietet Lesern die Möglichkeit, ihre eigenen Ansätze für aktuelle Fließanwendungen zu entwickeln. Mit wertvollen Informationen für all jene, die über bestehende Hardware hinaus individuelle Lösungen für ihre Fließprobleme finden müssen. Es gibt eine kurze Einführung in die Durchflußmessung, in Terminologie und Definitionen, in Eigenschaften, Einheiten und Klassifikation von Techniken und Meßinstrumenten. Außerdem werden anspruchsvolle Anwendungen behandelt, die Meßprobleme und Lösungen verdeutlichen sowie Grundlagen der Meßtechnik inklusive dazugehöriger Apparatur. (02/99)
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.
General Concepts of Flow and Flow Instrumentation. Inferential Flow Measurement. Two-Phase Flow Applications. Flow Measurements in Harsh Environments. Using Modeling to Improve Mass Flowmetering Accuracy. Flowmeter Calibration Methods. A New Gravimetric Flow Calibrator. Index.
Show moreGeneral Concepts of Flow and Flow Instrumentation.
Inferential Flow Measurement.
Two-Phase Flow Applications.
Flow Measurements in Harsh Environments.
Using Modeling to Improve Mass Flowmetering Accuracy.
Flowmeter Calibration Methods.
A New Gravimetric Flow Calibrator.
Index.
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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