Measurements and Instrumentation in Heat Engineering Volume 2 /
V . P. Preobrazhensky
- Volume 2
- Moscow: MIR Publishers, c 1980.
- 342 p .: ill. ; 22cm.
CONTENT
PART FOUR: MEASUREMENT OF PRESSURE AND PRESSURE DIFFERENTIAL BASIC DEFINITIONS AND UNITS
CHAPTER TEN: PRESSURE-MEASURING INSTRUMENTS USING ELASTIC SENSING ELEMENTS 10.1 General 10.2 Elastic Pressure Elements 10.3 Direct-Acting (Local) Pressure Measuring Instruments 10.4 Electric-Contact Gauges and Pressure Relays 10.5 Pressure-Measuring Instruments Using Electric and Pneumatic Transducers Etc.
CHAPTER TWELVE: DIFFERENTIAL-PRESSURE GAUGES 12.1 General 12.2 Bell-Type Defferental-Pressure Gauges 12.3 Ring-Balanced Manometers 12.4 Float-Type Manometers 12.5 Differential-Pressure Gauges Using Elastic Elements
CHAPTER THIRTEEN: PRACTICAL HINTS FOR PRESSURE MEASUREMENTS 13.1 General 13.2 Measurement of Nearly Atmospheric Pressure in Gases 13.3 Measuring the Pressure of Gases, Liquids and Steam 13.4 Liquid and Diaphragm Seals
PART FIVE: FLOW MEASUREMENT
BASIC DEFINITIONS AND UNITS
CHAPTER FOURTEEN: FLUID FLOW MEASUREMENT BY DIFFERENTIAL-HEAD METERS 14.1 Basic Flow Theory and Equqtions 14.2 Standard Restrictions 14.3 Flow Coefficient and its Corrections 14.4 The Expansion Factor 14.5 Determination of Fluid Density Etc.
CHAPTER FIFTEEN: PITOT-TUBE VELOCITY AND FLOW METERS 15.1 General 15.2 Design of Pitot Tubes 15.3 Measurement of Average Velocity and Flow Rates
CHAPTER SIXTEEN: VARIABLE-AREA FLOW METERS 16.1 General 16.2 Basic Theory of the Rotameter 16.3 Construction of the Rotameter
CHAPTER SEVENTEEN: VOLUME FLOW METERS. MAGNETIC FLOW METERS 17.1 Rotary Meters for Liquids 17.2 Rotary Rate Meters for Liquids 17.3 Mgnetic Flow Meters
CHAPTER EIGHTEEN: MEASUREMENT OF FLOW RATE AND TOTAL FLOW OF HEAT IN HEAT-SUPPLY SYSTEMS 18.1 General 18.2 Design of a Heat Meter
PART SIX: LEVEL MEASUREMENT
CHAPTER NINETEEN: LIQUID LEVEL MEASUREMENT 19.1 General 19.2 Measuring the Level of Waterin a Boiler Drum 19.3 Level Gauging in Condensers, Preheaters, and Tanks by the Differential-Pressure 19.4 Float-Type and Displacer-Type Liquid Level Gauges 19.5 Electrical-Capacitance Level Gauges Etc.
CHAPTER TWENTY-ONE: PRINCIPLES OF GAS ANALYSIS 21.1 General 21.2 Chemical Gas Analyzers 21.3 Thermal Gas Analyzers 21.4 Magnetic Gas Analyzers 12.5 Optical Gads Analyzers Etc.
PART EIGHT: METHODS AND INSTRUMENTATION FOR THE MEASUREMENT AND QUALITY CONTROL OF WATER, STEAM, CONDENSATE AND SOLUTION CONCENTRATION
CHAPTER TWENTY-TWO: METHODS AND INSTRUMENTATION FOR THE MEASUREMENT AND QUALITY CONTROL OF WATER, STEAM, CONDENSATE AND SOLUTION CONCENTRATION 22.1 General 22.2 Measuring the Electrical Conductivity of Water Solutions 22.3 Electrical-Conductivity Liquid Analyzers Using Degassed and Enriched Samples 22.4 Electrodeless Electrical-Conductivity Liquid Analyzers 22.5 Oygen-in-Water Analyzers Etc.
Includes References p. 336-340 and Index p.341-342