| Description |
1 online resource (629 pages) |
| Contents |
Cover; Title page; Copyright page; Epigraph; PREFACE; NOMENCLATURE; PART I: METHODOLOGY; 1 FUNDAMENTALS; 1.1 SYSTEMS OF UNITS; 1.2 FLUID PROPERTIES; 1.3 IMPORTANT DIMENSIONLESS RATIOS; 1.4 EQUATIONS OF STATE; 1.5 FLUID VELOCITY; 1.6 FLOW REGIMES; 2 CONSERVATION EQUATIONS; 2.1 CONSERVATION OF MASS; 2.2 CONSERVATION OF MOMENTUM; 2.3 THE MOMENTUM FLUX CORRECTION FACTOR; 2.4 CONSERVATION OF ENERGY; 2.5 GENERAL ENERGY EQUATION; 2.6 HEAD LOSS; 2.7 THE KINETIC ENERGY CORRECTION FACTOR; 2.8 CONVENTIONAL HEAD LOSS; 2.9 GRADE LINES; 3 INCOMPRESSIBLE FLOW; 3.1 CONVENTIONAL HEAD LOSS |
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3.2 SOURCES OF HEAD LOSS4 COMPRESSIBLE FLOW; 4.1 PROBLEM SOLUTION METHODS; 4.2 APPROXIMATE COMPRESSIBLE FLOW USING INCOMPRESSIBLE FLOW EQUATIONS; 4.3 ADIABATIC COMPRESSIBLE FLOW WITH FRICTION: IDEAL EQUATION; 4.4 ISOTHERMAL COMPRESSIBLE FLOW WITH FRICTION: IDEAL EQUATION; 4.5 EXAMPLE PROBLEM: COMPRESSIBLE FLOW THROUGH PIPE; 5 NETWORK ANALYSIS; 5.1 COUPLING EFFECTS; 5.2 SERIES FLOW; 5.3 PARALLEL FLOW; 5.4 BRANCHING FLOW; 5.5 EXAMPLE PROBLEM: RING SPARGER; 5.6 EXAMPLE PROBLEM: CORE SPRAY SYSTEM; 6 TRANSIENT ANALYSIS; 6.1 METHODOLOGY; 6.2 EXAMPLE PROBLEM: VESSEL DRAIN TIMES |
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6.3 EXAMPLE PROBLEM: POSITIVE DISPLACEMENT PUMP6.4 EXAMPLE PROBLEM: TIME-STEP INTEGRATION; 7 UNCERTAINTY; 7.1 ERROR SOURCES; 7.2 PRESSURE DROP UNCERTAINTY; 7.3 FLOW RATE UNCERTAINTY; 7.4 EXAMPLE PROBLEM: PRESSURE DROP; 7.5 EXAMPLE PROBLEM: FLOW RATE; PART II: LOSS COEFFICIENTS; 8 SURFACE FRICTION; 8.1 FRICTION FACTOR; 8.2 THE COLEBROOK-WHITE EQUATION; 8.3 THE MOODY CHART; 8.4 EXPLICIT FRICTION FACTOR FORMULATIONS; 8.5 ALL-REGIME FRICTION FACTOR FORMULAS; 8.6 SURFACE ROUGHNESS; 8.7 NONCIRCULAR PASSAGES; 9 ENTRANCES; 9.1 SHARP-EDGED ENTRANCE; 9.2 ROUNDED ENTRANCE; 9.3 BEVELED ENTRANCE |
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9.4 ENTRANCE THROUGH AN ORIFICE10 CONTRACTIONS; 10.1 FLOW MODEL; 10.2 SHARP-EDGED CONTRACTION; 10.3 ROUNDED CONTRACTION; 10.4 CONICAL CONTRACTION; 10.5 BEVELED CONTRACTION; 10.6 SMOOTH CONTRACTION; 10.7 PIPE REDUCER: CONTRACTING; 11 EXPANSIONS; 11.1 SUDDEN EXPANSION; 11.2 STRAIGHT CONICAL DIFFUSER; 11.3 MULTISTAGE CONICAL DIFFUSERS; 11.4 CURVED WALL DIFFUSER; 11.5 PIPE REDUCER: EXPANDING; 12 EXITS; 12.1 DISCHARGE FROM A STRAIGHT PIPE; 12.2 DISCHARGE FROM A CONICAL DIFFUSER; 12.3 DISCHARGE FROM AN ORIFICE; 12.4 DISCHARGE FROM A SMOOTH NOZZLE; 13 ORIFICES; 13.1 GENERALIZED FLOW MODEL |
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13.2 SHARP-EDGED ORIFICE13.3 ROUND-EDGED ORIFICE; 13.4 BEVEL-EDGED ORIFICE; 13.5 THICK-EDGED ORIFICE; 13.6 MULTIHOLE ORIFICES; 13.7 NONCIRCULAR ORIFICES; 14 FLOW METERS; 14.1 FLOW NOZZLE; 14.2 VENTURI TUBE; 14.3 NOZZLE/VENTURI; 15 BENDS; 15.1 ELBOWS AND PIPE BENDS; 15.2 COILS; 15.3 MITER BENDS; 15.4 COUPLED BENDS; 15.5 BEND ECONOMY; 16 TEES; 16.1 DIVERGING TEES; 16.2 CONVERGING TEES; 17 PIPE JOINTS; 17.1 WELD PROTRUSION; 17.2 BACKING RINGS; 17.3 MISALIGNMENT; 18 VALVES; 18.1 MULTITURN VALVES; 18.2 QUARTER-TURN VALVES; 18.3 SELF-ACTUATED VALVES; 18.4 CONTROL VALVES |
| Summary |
Pipe Flow provides the information required to design and analyze the piping systems needed to support a broad range of industrial operations, distribution systems, and power plants. Throughout the book, the authors demonstrate how to accurately predict and manage pressure loss while working with a variety of piping systems and piping components. The book draws together and reviews the growing body of experimental and theoretical research, including important loss coefficient data for a wide selection of piping components. Experimental test data and published formulas are examined, integrated a |
| Notes |
18.5 VALVE LOSS COEFFICIENTS |
| Bibliography |
Includes bibliographical references and index |
| Notes |
English |
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Print version record |
| Subject |
Pipe -- Fluid dynamics.
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Water-pipes -- Hydrodynamics.
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Fluid mechanics.
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TECHNOLOGY & ENGINEERING -- Material Science.
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Fluid mechanics
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Pipe -- Fluid dynamics
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Water-pipes -- Hydrodynamics
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Fluiddynamik.
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| Form |
Electronic book
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| Author |
Hudson, Hobart M
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| ISBN |
9781118275245 |
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1118275241 |
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0470901020 |
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9780470901021 |
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9781118275269 |
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1118275268 |
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1280588381 |
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9781280588389 |
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9786613618214 |
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6613618217 |
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1118275276 |
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9781118275276 |
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