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Instrumentation Reference Book PDF

1086 Pages·2003·36.36 MB·English
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Referm Book Third Edition Walt Boyes Editor Instrumentation Reference Book Instrumentation Reference Book Third Edition Edited by Walt Boyes With specialist contributors ~ LT TJ E R w o R T H E I N E M A N N Boston Oxford Johannesburg Melbourne New Delhi Singapore Copyright 0 2003 by Elsevier Science Contents Preface to the third edition ix 7 Measurement of force 106 Basic concepts. Force measurement methods. Lever-balance methods. Force-balance methods. Preface to the second edition x Hydraulic pressure measurement. Acceleration measurement. Elastic elements. Further Preface to the first edition xi developments. References. List of Contributors xii 8 Measurement of density 114 General. Measurement of density using weight. Int rod L I ct io n xiv Measurement of density using buoyancy. Measurement of density using hydrostatic head. Measurement of density using radiation. Measurement of density using Part 1: Mechanical resonant elements. Further reading. Measurements 9 Measurement of pressure 123 1 Measurement off flow 3 What is pressure? Pressure measurement. Pressure Introduction. Basic principles of flow measurement. transmitters. References. Further reading. Fluid flow in closed pipes. Flow in open channels. Point v Reelfoecrietyn cmese.a Fsurethmeern rte. aFdlionwg.m eter calibration methods. 10 Measurement of vacuum 144 Introduction. Absolute gauges. Non-absolute gauges. 2 Measurement of viscosity 45 References. Introduction. Newtonian and non-Newtonian behavior. Measurement of the shear viscosity. 11 Particle sizing 154 Shop-floor viscometers. Measurement of the extensional Introduction. Characterization of particles. Terminal viscosity. Measurement of viscosity under extremes of velocity. Optical effects caused by particles. Particle temperature and pressure. On-line measurements. shape. Methods for characterizing a group of particles. Accuracy and range. References. Further reading. Analysis methods that measure size directly. Analysis methods that measure terminal velocity. Analysis 3 Measurement of length 53 methods that infer size from some other property. Introduction. The nature of length. Derived References. Further reading. measurements. Standards and calibration of length. Practice of length measurement for industrial use. 12 Fiber optics in sensor Automatic gauging systems. References. Further reading. instrumentation 17 4 Measurement of strain 71 Introduction. Principles of optical fiber sensing. Interferometric sensing approach. Doppler Strain. Bonded resistance strain gauges. Gauge anemometry. In-fiber sensing structures. characteristics. Installation. Circuits for strain gauges. References. Vibrating wire strain gauge. Capacitive strain gauges. Surveys of whole surfaces. Photo-elasticity. References. 13 Microprocessor-based 5 Measurement of level and volume 81 and intelligent transmitters 208 Introduction. Practice of level measurement. Introduction. Terminology. Background information. Calibration of level-measuring systems. Methods Attributes and features of microprocessor-based and providing full-range level measurement. Methods intelligent transmitters. Microprocessor-based and providing short-range detection. References. intelligent temperature transmitters. Microprocessor- based and intelligent pressure and differential transmitters. Microprocessor-based and intelligent 6 Vibration 92 flowmeters. Other microprocessor-based and intelligent Introduction. Amplitude calibration. Sensor practice. transmitters. Other microprocessor-based and Literature. References. Further reading. intelligent measurement systems. Fieldbus. User vi Contents experience with microprocessor-based and intelligent indicating instruments. Digital voltmeters and digital transmitters. Fieldbus function and benefits. References. multimeters. Power measurement. Measurement of electrical energy. Power-factor measurement. The measurement of resistance, capacitance, and inductance. Part 2: Measurement of Digital frequency and periodhie-interval Temperature and Chemical measurement. Frequency and phase measurement using an oscilloscope. References. Further reading. Composition 21 Optical measurements 492 14 Temperature measurement 239 Introduction. Light sources. Detectors. Detector Temperature and heat. Temperature scales. techniques. Intensity measurement. Wavelength and Measurement techniques: direct effects. Measurement color. Measurement of optical properties. Thermal techniques: electrical. Measurement techniques: imaging techniques. References. thermocouples. Measurement techniques: radiation thermometers. Temperature measurement 22 Nuclear instrumentation considerations. References. Further reading. technology 517 Introduction. Detectors. Electronics. References. 15 Chemical analysis: Further reading. introduction 303 Introduction to chemical analysis. Chromatography, 23 Measurements employing Polarography and anodic stripping voltammetry. nuclear techniques 547 Thermal analysis. Further reading. Introduction. Materials analysis. Mechanical measurements. Miscellaneous measurements. 16 Chemical analysis: References. spectroscopy 318 24 Non-destructive testing 566 Absorption and reflection techniques. Atomic techniques: emission, absorption, and fluorescence. Introduction. Visual examination. Surface-inspection X-ray spectroscopy. Photo-acoustic spectroscopy. methods. Ultrasonics. Radiography. Underwater Microwave spectroscopy. Neutron activation. Mass non-destructive testing. Developments. Certification spectrometers. References. Further reading. of personnel. References. Further reading. 25 Noise measurement 596 17 Chemical analysis: electrochemical techniques 343 Sound and sound fields. Instrumentation for the measurement of sound-pressure level. Frequency Acids and alkalis. Ionization of water. Electrical analyzers. Recorders. Sound-intensity analyzers. conductivity. The concept of pH. Electrode potentials. Calibration of measuring instruments. The measurement Ion-selective electrodes. Potentiometry and specific ion of sound-pressure level and sound level. Effect of measurement. Common electrochemical analyzers. environmental conditions on measurements. References. Further reading. Further reading. 18 Chemical analysis: gas analysis 382 Part 4: Instrumentation Systems Introduction. Separation of gaseous mixtures. Detectors. Process chromatography. Special gas analyzers. 26 Design and construction Calibration of gas analyzers. Further reading. of instruments 625 Introduction. Instrument design. Elements of 19 Chemical analysis: moisture construction. Construction of electronic instruments. measurement 414 Mechanical instruments. References. Introduction. Definitions. Measurement techniques Calibration. References. 27 Instrument installation and commissioning 642 Introduction. General requirements. Storage and protection. Mounting and accessibility. Piping systems. Part 3: Electrical and Radiation Cabling. Grounding. Testing and pre-commissioning. Measurements Plant commissioning. References. 20 Electrical measurements 425 28 Sampling 648 Units and standards of electrical measurement. Introduction. Sample system components. Typical Measurement of d.c. and a.c. current and voltage using sample systems. References. Contents vii 29 Telemetry 666 Part 5 : Further Scientific Introduction. Communication channels. Signal and Technical Information multio~lLe xing. Pulse encoding-. Carrier wave modulation. Error detection and correction codes. Direct analog 36 Trigonometric functions and signal transmission. Frequency transmission. Digital signal transmission. References. Further reading. general formulae 953 Mathematical signs and symbols. Trigonometric formulae. Trigonometric values. Approximations for 30 Display and recording 691 small angles. Solution of triangles. Spherical triangle. Exponential form. De Moivre's theorem. Euler's Introduction. Indicating devices. Light-emitting diodes relation. Hyperbolic functions, Complex variable, (LEDs). Liquid crystal displays (LCDs). Plasma Cauchy-Riemann equations. Cauchy's theorem. Zeros; displays. Cathode ray tubes (CRTs). Graphical poles, and residues. Some standard forms. Coordinate recorders. Magnetic recording. Transienthaveform systems. Transformation of integrals. Laplace's recorders. Data loggers. References. equation. Solution of equations. Method of least squares. Relation between decibels, current and voltage ratio, and power ratio. 31 Pneumatic instrumentation 710 Basic characteristics. Pneumatic measurement and control svstems. Princioal measurements. Pneumatic 37 Statistics 96 transmission. Pneumatic controllers. Signal Introduction. Data presentation. Averages. Dispersion conditioning. Electropneumatic interface. References. from the average, Skewness, Combinations and oermutations. Regv ression and correlation. Probabilitv. Probability distributions. Sampling. Tests of 32 Reliability in instrumentation significance. Further reading. and control 734 Reliability principles and terminology. Reliability assessmenl . System design. Building high-reliability 38 Quantities and units 97 systems. The human operator in control and International unit system. Universal constants in SI instrumentation. Safety monitoring. Software units. Metric to Imperial conversion factors. Symbols reliability. Electronic and avionic systems. Nuclear and abbreviations. References. reactor control systems. Process and plant control. References. 39 Electricity 79 33 Safety 793 Introduction. Molecules, atoms, and electrons. Atomic structure. Wave mechanics. Electrons in atoms. Energy Introduction. Electrocution risk. Flammable levels. Electrons in metals. Conductivity. Electron atmospheres. Other safety aspects. Conclusion. emission. Electrons in crystals. Insulators. References. Further reading. Semiconductors. Magnetism. Simplified electrical theories. 34 History of instrumentation 802 Introduction. Parts of the system. Microsoft Windows. 40 Light 98 Traditional and graphical programming languages. Introduction. The optical spectrum. Basic concepts of Personal computers for data acquisition (and optical radiation. Radiometry and photometry. Units instrument control). Other parts of the system. Machine of measurement. Practical measurements. Interaction vision. Industrial networks and fieldbuses. Personal of light with matter. References. Further reading. computer buses. New serial buses. Firewire" : IEEE-1394. Older PC buses. The VXI bus. HS488: enhancing the IEEE488.1 Specification. Ethernet. 41 Radiation 94 Virtual Instrument Software Architecture (VISA). Inter- changeable Virtual Instruments (IVI). Real-time program- Electromagnetic radiation. Nuclear radiation. Further ming. The luture of virtual instrumentation.F urther reading. reading. 35 EMC 861 42 Connectors 999 Introduction. Interference coupling mechanisms. Connector housings. Connector contacts. Connector Circuits, layout, and grounding. Interfaces. filtering, terminations. Tooling. Mass termination connectors. and shielding. The regulatory framework. Further Fiber optics connectors. Radio frequency connectors. reading. References. Further reading.

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