Fluid transport : pipes /

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Fluid Transport: Pipes, part of the Industrial Equipment for Chemical Engineering set, provides a description and calculation of the essential equipment used for fluid transport. Gas-liquid flows are studied with regard to the nature of this type of flow, along with the pressure drop that they may t...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Duroudier, Jean-Paul
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London : ISTE Press : Elsevier, 2016.
Colección:Industrial equipment for chemical engineering set.
Temas:
Gas distribution.
Gas-pipes.
Gaz > Distribution.
Tuyaux à gaz.
SCIENCE > Chemistry > Industrial & Technical.
TECHNOLOGY & ENGINEERING > Chemical & Biochemical.
Gas distribution
Gas-pipes
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover ; Fluid Transport: Pipes ; Copyright; Contents; Preface; Chapter 1. Fluid Ejectors and Gas Ejectors; 1.1. General; 1.2. Liquid-liquid or gas-gas ejectors; 1.3. Gas ejectors and thermocompressors; 1.4. Practical applications of ejectors and thermocompressors; Chapter 2. Pipe Dimensions, Non-Newtonian Fluids, Liquid Hammer; 2.1. Establishing pipe diameter; 2.2. Establishing pipe thickness; 2.3. Flanges, seals and accessories; 2.4. Sound waves in pipes; 2.5. Mechanism of liquid hammer; 2.6. Approximate simulation method for simple pipes (without intermediate accessories and fittings).
  • 2.7. Simplified graphic method2.8. Anti-liquid hammer chambers; Chapter 3. Block or Stop Valves and Control Valves; 3.1. On valves in general; 3.2. Different types of valves; 3.3. Control valve choice and calculation; 3.4. The process parameters of a control valve; Chapter 4. Electric Motors: Performance and Choice of Pumps and Fans; 4.1. Choice of motor; 4.2. Utilization of motors; 4.3. Turbopumps; 4.4. Volumetric pumps; 4.5. Special cases; 4.6. Fans; Chapter 5. Polymer Extruder Screw; 5.1. Introduction of extrusion screw; 5.2. Movement of the polymer in the screw channel.
  • 5.3. Heat for polymer melting5.4. Shaft electrical power; 5.5. Practical considerations and screw use; 5.6. Mixing and thermal transfer in the screw; Chapter 6. Choice and Performance of Compressors; 6.1. About compressors; 6.2. Reciprocating compressors; 6.3. Open volumetric compression
  • screw compressors and lobe compressors; 6.4. Turbo compressors; 6.5. Fans; 6.6. Liquid ring pumps; Chapter 7. Free Gas Expansion; 7.1. Types of expansion: one-dimensional flow equations; 7.2. Theoretical study of control valves, safety valves and gas pipelines; Chapter 8. Safety Valves and Rupture Disks.
  • 8.1. Pressure around a safety valve8.2. Choice between two types of safety valves; 8.3. Relationship between flowrate and pressure; 8.4. Upstream and downstream connections; 8.5. Various applications; 8.6. Rupture disks; Chapter 9. Breathing, Inerting, Gas Losses and Circulation between Reservoirs, Tanks and Vats; 9.1. Breather valve specifications: reservoir filling ratio limitations; 9.2. Assessment of losses to the atmosphere; 9.3. Circulation of liquid between reservoirs; Chapter 10. Flow in Pipes: Rarified Gas, Non-Newtonian Liquids, Events, Gas-Liquid Flow; 10.1. Rarified gas.
  • 10.2. Consistent or plastic products10.3. Vents; 10.4. Nature of gas-liquid flows; 10.5. Pressure drop in gas-liquid flows; 10.6. Critical biphasic flow; Appendix; Bibliography; Index; Back Cover.

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