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| Pipefitter.com-Piping Calculations Manual |
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Dimensions
(in inches) 6" x 9"
$99.95
Author: E. Shashi Menon |
| Table of Contents |
| Preface Chapter 1. Water Systems Piping Introduction Properties of Water Mass and Weight Density and Specific Weight Specific Gravity Viscosity Pressure Velocity Reynolds Number Types of Flow Pressure Drop Due to Friction Bernoulli's Equation Darcy Equation Colebrook-White Equation Moody Diagram Hazen-Williams Equation Manning Equation Minor Losses Valves and Fittings Pipe Enlargement and Reduction Pipe Entrance and Exit Losses Complex Piping Systems Series Piping Parallel Piping Total Pressure Required Effect of Elevation Tight Line Operation Slack Line Flow Hydraulic Gradient Gravity Flow Pumping Horsepower Pumps Positive Displacement Pumps Centrifugal Pumps Pumps In Series and Parallel System Head Curve Pump Curve versus System Head Curve Flow Injections and Deliveries Valves and Fittings Pipe Stress Analysis Pipeline Economics Chapter 2. Fire Protection Piping Systems Introduction Fire Protection Codes and Standards Types of Fire Protection Piping Belowground Piping Aboveground Piping Hydrants and Sprinklers Design of Piping System Pressure Velocity Pressure Drop Due to Friction Reynolds Number Types of Flow Darcy-Welsbach Equation Moody Diagram Hazen-Williams Equation Friction Loss Tables Losses In Valves and Fittings Complex Piping Systems Pipe Materials Pumps Centrifugal Pumps Net Positive Suction Head System Head Curve Pump Curve versus System Head Curve Sprinkler System Design Chapter 3. Wastewater and Stormwater Piping Introduction Properties of Wastewater and Stormwater Mass and Weight Density and Specific Weight Volume Specific Gravity Viscosity Pressure Velocity Reynolds Number Types of Flow Pressure Drop Due to Friction Manning Equation Darcy Equation Colebrook-White Equation Moody Diagram Hazen-Williams Equation Minor Losses Valves and Fittings Pipe Enlargement and Reduction Pipe Entrance and Exit Losses Sewer Piping Systems Sanitary Sewer System Design Self-Cleansing Velocity Storm Sewer Design Time of Concentration Runoff Rate Complex Piping Systems Series Piping Parallel Piping Total Pressure Required Effect of Elevation Tight Line Operation Slack Line Flow Hydraulic Gradient Gravity Flow Pumping Horsepower Pumps Positive Displacement Pumps Centrifugal Pumps Pipe Materials Loads on Sewer Pipe Chapter 4. Steam Systems Piping Introduction Codes and Standards Types of Steam Systems Piping Properties of Steam Enthalpy Specific Heat Pressure Steam Tables Superheated Steam Volume Viscosity Pipe Materials Velocity of Steam Flow in Pipes Pressure Drop Darcy Equation for Pressure Drop Colebrook-White Equation Unwin Formula Babcock Formula Fritzche's Equation Nozzles and Orifices Pipe Wall Thickness Determining Pipe Size Valves and Fittings Minor Losses Pipe Enlargement and Reduction Pipe Entrance and Exit Losses Chapter 5. Compressed-Air Systems Piping Introduction Properties of Air Relative Humidity Humidity Ratio Fans, Blowers, and Compressors Flow of Compressed Air Free Air, Standard Air, and Actual Air Isothermal Flow Adiabatic Flow Isentropic Flow Pressure Drop in Piping Darcy Equation Churchill Equation Swamee-Jain Equation Harris Formula Fritzsche Formula Unwin Formula Spitzglass Formula Weymouth Formula Minor Losses Flow of Air through Nozzles Flow through a Restriction |
Chapter
6. Oil Systems Piping Introduction Density, Specific Weight, and Specific Gravity Specific Gravity of Blended Products Viscosity Viscosity of Blended Products Bulk Modulus Vapor Pressure Pressure Velocity Reynolds Number Types of Flow Pressure Drop Due to Friction Bernoulli's Equation Darcy Equation Colebrook-White Equation Moody Diagram Hazen-Williams Equation Miller Equation Shell-MIT Equation Other Pressure Drop Equations Minor Losses Valves and Fittings Pipe Enlargement and Reduction Pipe Entrance and Exit Losses Complex Piping Systems Series Piping Parallel Piping Total Pressure Required Effect of Elevation Tight Line Operation Hydraulic Gradient Pumping Horsepower Pumps Positive Displacement Pumps Centrifugal Pumps Net Positive Suction Head Specific Speed Effect of Viscosity and Gravity on Pump Performance Valves and Fittings Pipe Stress Analysis Pipeline Economics Chapter 7. Gas Systems Piping Introduction Gas Properties Mass Volume Density Specific Gravity Viscosity Ideal Gases Real Gases Natural Gas Mixtures Compressibility Factor Heating Value Calculating Properties of Gas Mixtures Pressure Drop Due to Friction Velocity Reynolds Number Pressure Drop Equations Transmission Factor and Friction Factor Line Pack in Gas Pipeline Pipes in Series Pipes in Parallel Looping Pipelines Gas Compressors Isothermal Compression Adiabatic Compression Discharge Temperature of Compressed Gas Compressor Horsepower Pipe Stress Analysis Pipeline Economics Chapter 8. Fuel Gas Distribution Piping Systems Introduction Codes and Standards Types of Fuel Gas Gas Properties Fuel Gas System Pressures Fuel Gas System Components Fuel Gas Pipe Sizing Pipe Materials Pressure Testing LPG Transportation Velocity Reynolds Number Types of Flow Pressure Drop Due to Friction Darcy Equation Colebrook-White Equation Moody Diagram Minor Losses Valves and Fittings Pipe Enlargement and Reduction Pipe Entrance and Exit Losses Total Pressure Required Effect of Elevation Pump Stations Required Tight Line Operation Hydraulic Gradient Pumping Horsepower LPG Storage LPG Tank and Pipe Sizing Chapter 9. Cryogenic and Refrigeration Systems Piping Introduction Codes and Standards Cryogenic Fluids and Refrigerants Pressure Drop and Pipe Sizing Single-Phase Liquid Flow Single-Phase Gas Flow Two-Phase Flow Refrigeration Piping Piping Materials Chapter 10. Slurry and Sludge Systems Piping Introduction Physical Properties Newtonian and Nonnewtonian Fluids Bingham Plastic Fluids Pseudo-Plastic Fluids Yield Pseudo-Plastic Fluids Flow of Newtonian Fluids Flow of Nonnewtonian Fluids Laminar Flow of Nonnewtonian Fluids Turbulent Flow of Nonnewtonian Fluids Homogenous and Heterogeneous Flow Homogenous Flow Heterogeneous Flow Pressure Loss in Slurry Pipelines with Heterogeneous Flow Appendix A. Units and Conversions Appendix B. Pipe Properties (U.S. Customary System of Units) Appendix C. Viscosity Corrected Pump Performance References Index |
