Pumps and compressors / Marc Borremans, Erasmus University College Brussels, Anderlecht, Belgium.
By: Borremans, Marc [author.]
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Material type: 
BookSeries: Wiley-ASME Press series: Publisher: Chichester, West Sussex : [New York, NY] : John Wiley & Sons Ltd ; ASME Press, 2019Copyright date: ©2019Description: 1 online resource (xxv, 481 pages).Content type: text Media type: computer Carrier type: online resourceISBN: 9781119534112; 1119534119; 9781119534204; 1119534208; 9781119534082; 1119534089.Subject(s): Pumping machinery | Compressors | TECHNOLOGY & ENGINEERING / Mechanical | Compressors | Pumping machineryGenre/Form: Electronic books.Additional physical formats: Print version:: Pumps and compressorsDDC classification: 621.6/9 Online resources: Wiley Online Library Includes index.
Publishing location for second publisher obtained from publisher's website.
Part I Pumps; Chapter 1 General Concepts; 1.1 Hydrostatics; 1.2 Flow; 1.3 Law of Bernoulli; 1.4 Static and Dynamic Pressure; 1.5 Viscosity; 1.6 Extension of Bernoulli's Law; 1.7 Laminar and Turbulent Flow; 1.8 Laminar Flow; 1.8.1 Hydraulic Resistance; 1.8.2 Hydraulic Diameter; 1.9 Turbulent Flow; 1.10 Moody's Diagram; 1.11 Feed Pressure; 1.11.1 Geodetic Feed Pressure; 1.11.2 Static Feed Pressure; 1.11.3 Manometric Feed Pressure; 1.11.4 Theoretic Feed Pressure
1.12 Law of Bernoulli in Moving Reference Frames1.13 Water Hammer (Hydraulic Shock); 1.14 Flow Mechanics; 1.14.1 Hydrofoils; 1.14.2 Applications; Chapter 2 Positive Displacement Pumps; 2.1 Reciprocating Pumps; 2.1.1 Operation; 2.1.2 Flow; 2.1.3 Valves; 2.1.4 Piston Sealing; 2.1.5 Plunger Pumps; 2.1.6 Hand Pump; 2.1.7 Double Acting Pump; 2.1.8 Membrane Pumps; 2.1.9 Triplex Pumps; 2.1.10 Hydrophore; 2.2 Maximum Suction Head; 2.2.1 Theoretical; 2.2.2 Vapor Pressure; 2.2.3 Velocity; 2.2.4 Barometer; 2.2.5 Friction; 2.2.6 Acceleration; 2.2.6.1 Kinematics; 2.2.6.2 Dynamics; 2.2.7 Air Chambers
2.2.7.1 Suction Side2.2.7.2 Press Side; 2.3 Characteristic Values; 2.3.1 Manometric Feed Pressure; 2.3.2 Theoretical Pressure; 2.3.3 Power and Efficiency; 2.3.4 Example; 2.3.5 Characteristic Curve of the Pump; 2.3.5.1 Characteristic of the Pipe Line; 2.3.5.2 Characteristic of the Pump; 2.3.5.3 Regulation; 2.3.6 Conclusion; 2.4 Hydraulic Pumps; 2.4.1 Introduction; 2.4.2 Sliding Vane Pump; 2.4.3 Gear Pumps; 2.4.3.1 External Toothing; 2.4.3.2 Internal Toothing; 2.4.4 Screw Pumps; 2.4.5 Radial Plunger Pumps; 2.4.6 Axial Plunger Pumps; 2.5 Other Displacement Pumps; 2.5.1 Lobe Pump
2.5.2 Peristaltic Pump2.5.2.1 Properties; 2.5.2.2 Applications; 2.5.3 Mono Pump; 2.5.4 Flex Impeller Pump; 2.5.5 Side Channel Pump; Chapter 3 Dynamic Pumps; 3.1 Radial Turbopumps (Centrifugal Pumps); 3.1.1 General; 3.1.2 Impeller Forms; 3.1.2.1 Closed Impeller; 3.1.2.2 Half-Open Impeller; 3.1.2.3 Open Impeller; 3.1.3 Velocity Triangles; 3.1.4 Flow; 3.1.4.1 Definition; 3.1.4.2 Flow Determining Component of the Velocity; 3.1.4.3 The Relative Flow; 3.1.5 Static Pressure in a Closed Pump; 3.1.6 Theoretical Feed Pressure; 3.1.6.1 Law of Bernoulli in Rotating Frame; 3.1.6.2 Discussion
3.1.6.3 Theoretical Feed Pressure3.1.7 Diffusor; 3.1.8 Influence of Vane Angle; 3.1.8.1 Graphically; 3.1.8.2 Analytically; 3.1.9 Pump Curve; 3.1.9.1 System Curve; 3.1.9.2 Build Up Pump Curve; 3.1.9.3 Operating Point; 3.1.10 Pump Efficiency; 3.1.11 Influence RPM; 3.1.12 First Set of Affinity Laws; 3.1.13 Second Set of Affinity Laws; 3.1.14 Surge; 3.1.15 Application Field; 3.1.16 Flow Regulation; 3.1.16.1 Throttle Regulation; 3.1.16.2 Bypass Regulation; 3.1.16.3 Speed Regulation; 3.1.16.4 Comparison; 3.1.17 Start Up of the Pump; 3.1.18 High Pressure Pumps; 3.1.19 Roto-jet Pump
Description based on online resource; title from digital title page (viewed on October 16, 2019).
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