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" Pumps and compressors / "
Marc Borremans, Erasmus University College Brussels, Anderlecht, Belgium.
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BL
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| Record Number
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840558
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Borremans, Marc,1951-
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| Title & Author
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Pumps and compressors /\ Marc Borremans, Erasmus University College Brussels, Anderlecht, Belgium.
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| Publication Statement
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Chichester, West Sussex :: John Wiley & Sons Ltd ;[New York, NY] :: ASME Press,, 2019.
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, ©2019
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| Series Statement
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Wiley-ASME press series
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1 online resource (xxv, 481 pages)
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| ISBN
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1119534089
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: 1119534119
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: 1119534208
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: 9781119534082
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: 9781119534112
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: 9781119534204
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9781119534143
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| Notes
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Includes index.
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Publishing location for second publisher obtained from publisher's Web site.
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| Contents
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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
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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
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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
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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
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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
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| Abstract
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A practical guide to the majority of pumps and compressors used in engineering applications' Pumps and compressors are ubiquitous in industry, used in manufacturing, processing and chemical plant, HVAC installations, aerospace propulsion systems, medical applications, and everywhere else where there is a need to pump liquids, or circulate or compress gasses. This well-illustrated handbook covers the basic function, performance, and applications for the most widely used pump and compressor types available on the market today. It explains how each device operates and includes the governing mathematics needed to calculate device performance such as flow rates and compression. Additionally, real-world issues such as cavitation, and priming are covered. Pumps & Compressors is divided into two sections, each of which offers a notation of variables and an introduction. The Pumps section covers piston pumps, radial turbopumps, axial turbopumps, rotating pumps, hydraulic pumps, and pumps with driving flow. The Compressors section covers piston compressors, rotating compressors, turbo compressors, ejectors, vacuum pumps, and compressors for cooling purposes. -A virtual encyclopedia of all pumps and compressors that describes the mechanics of all devices and the theory, mathematics, and formulas governing their function -Allows the reader to develop the skills needed to confidently select the appropriate pump or compressor type and specification for their applications Pumps & Compressors is an excellent text for courses on pumps and compressors, as well as a valuable reference for professional engineers and laymen seeking knowledge on the topic.
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Compressors.
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Pumping machinery.
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Compressors.
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Pumping machinery.
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TECHNOLOGY ENGINEERING-- Mechanical.
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| Dewey Classification
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621.6/9
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| LC Classification
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TJ900.B67 2019
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