Techniques and Topics in Flow MeasurementCRC Press, 08.08.1995 - 176 Seiten 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. |
Inhalt
Chapter | 1 |
Reference | 7 |
Use of Constant Values of f Z and M₁ in the Air Density Equation | 22 |
New Formulations | 28 |
Tables | 30 |
Water Vapor Mixing Ratio as a Flow Parameter | 37 |
Development of Equations | 44 |
Helium | 50 |
Chapter 18 | 92 |
Derivation of Discharge Coefficient Cp for Orifice Plates | 93 |
Reference Method for Testing Hydrometers | 99 |
Application of the Method to Hydrometer Calibration | 107 |
Chapter 13 | 113 |
Chapter 14 | 119 |
Discussion and Conclusions | 128 |
Chapter 17 | 135 |
Chapter 6 | 57 |
Exercises | 63 |
Chapter 7 | 65 |
Chapter 8 | 71 |
Examples of Effects of Failure to Make Buoyancy Corrections | 79 |
Chapter 10 | 85 |
Diverter Corrections | 139 |
Chapter 19 | 145 |
| 152 | |
| 158 | |
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Häufige Begriffe und Wortgruppen
acceleration due accuracy and precision acid solutions air density equation air-free water anemometer argon automatic pipet balance buoyancy correction calculated using Equation calculated value calibration data Chapter CO₂ coefficient corresponding values Data for Run density of water determined diverter valve dry air due to gravity equation quadratic estimate of standard experimental expressed factor flow measurement fluid form of Equation ft/s² g(LL g/cm³ gases Hochreiter hydrometer Jones kg m-³ kg/m³ kinematic viscosity laminar flowmeter liquid M₁ m²/s m³/s mass flow rate mean residual midrange value moist air mole fraction molecular weight Natl NIST nitrogen P₁ parameters poundal precision quantity ratio Reference relative standard deviation resulting equation Reynolds number RRSD saturation vapor pressure specific heats standard deviation standard uncertainty tabulated taken from Table tank tap set temperature test measure turbine flowmeter value of Q values of CD volume flow rate water vapor
Verweise auf dieses Buch
A Primer in Fluid MechanicsDynamics of Flows in One Space Dimension William B. Brower, Jr. Eingeschränkte Leseprobe - 1998 |