Chemical Process Equipment : Selection and Design.
Comprehensive and practical guide to the selection and design of a wide range of chemical process equipment. Emphasis is placed on real-world process design and performance of equipment. Provides examples of successful applications, with numerous drawings, graphs, and tables to show the functioning...
Clasificación: | Libro Electrónico |
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Autor principal: | |
Otros Autores: | , , |
Formato: | Electrónico eBook |
Idioma: | Inglés |
Publicado: |
Burlington :
Elsevier Science,
2005.
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Edición: | 2nd ed. |
Temas: | |
Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Cover; Contents; Preface to the second edition; Preface to the first edition; Contributors; 0. RULES OF THUMB: SUMMARY; 1. INTRODUCTION; 1.1. PROCESS DESIGN; 1.2. EQUIPMENT; 1.3. CATEGORIES OF ENGINEERING PRACTICE; 1.4. SOURCES OF INFORMATION FOR PROCESS DESIGN; 1.5. CODES, STANDARDS, AND RECOMMENDED PRACTICES; 1.6. MATERIAL AND ENERGY BALANCES; 1.7. ECONOMIC BALANCE; 1.8. DESIGN SAFETY FACTORS; 1.9. SAFETY OF PLANT AND ENVIRONMENT; 1.10. STEAM AND POWER SUPPLY; 1.11. DESIGN BASIS; 1.12. LABORATORY AND PILOT PLANT WORK; 2. FLOWSHEETS; 2.1. BLOCK FLOWSHEETS; 2.2. PROCESS FLOWSHEETS.
- 2.3. PROCESS AND INSTRUMENTATION DIAGRAMS (P & ID)2.4. UTILITY FLOWSHEETS; 2.5. DRAWING OF FLOWSHEETS; 3. PROCESS CONTROL; 3.1. FEEDBACK CONTROL LOOP; 3.2. CONTROL LOOP PERFORMANCE AND TUNING PROCEDURES; 3.3. SINGLE STREAM CONTROL; 3.4. UNIT OPERATION CONTROL; 4. DRIVERS FOR MOVING EQUIPMENT; 4.1. MOTORS; 4.2. STEAM TURBINES AND GAS EXPANDERS; 4.3. COMBUSTION GAS TURBINES AND ENGINES; 5. TRANSFER OF SOLIDS; 5.1. SLURRY TRANSPORT; 5.2. PNEUMATIC CONVEYING; 5.3. MECHANICAL CONVEYORS AND ELEVATORS; 5.4. SOLIDS FEEDERS REFERENCES; 6. FLOW OF FLUIDS; 6.1. PROPERTIES AND UNITS.
- 6.2. ENERGY BALANCE OF A FLOWING FLUID6.3. LIQUIDS; 6.4. PIPELINE NETWORKS; 6.5. OPTIMUM PIPE DIAMETER; 6.6. NON-NEWTONIAN LIQUIDS; 6.7. GASES; 6.8. LIQUID-GAS FLOW IN PIPELINES; 6.9. GRANULAR AND PACKED BEDS; 6.10. GAS-SOLID TRANSFER; 6.11. FLUIDIZATION OF BEDS OF PARTICLES WITH GASES; 7. FLUID TRANSPORT EQUIPMENT; 7.1. PIPING; 7.2. PUMP THEORY; 7.3. PUMP CHARACTERISTICS; 7.4. CRITERIA FOR SELECTION OF PUMPS; 7.5. EQUIPMENT FOR GAS TRANSPORT; 7.6. THEORY AND CALCULATIONS OF GAS COMPRESSION; 7.7. EJECTOR AND VACUUM SYSTEMS; 8. HEAT TRANSFER AND HEAT EXCHANGERS; 8.1. CONDUCTION OF HEAT.
- 8.2. MEAN TEMPERATURE DIFFERENCE8.3. HEAT TRANSFER COEFFICIENTS; 8.4. DATA OF HEAT TRANSFER COEFFICIENTS; 8.5. PRESSURE DROP IN HEAT EXCHANGERS; 8.6. TYPES OF HEAT EXCHANGERS; 8.7. SHELL-AND-TUBE HEAT EXCHANGERS; 8.8. CONDENSERS; 8.9. REBOILERS; 8.10. EVAPORATORS; 8.11. FIRED HEATERS; 8.12. INSULATION OF EQUIPMENT; 8.13. REFRIGERATION; 9. DRYERS AND COOLING TOWERS; 9.1. INTERACTION OF AIR AND WATER; 9.2. RATE OF DRYING; 9.3. CLASSIFICATION AND GENERAL CHARACTERISTICS OF DRYERS; 9.4. BATCH DRYERS; 9.5. CONTINUOUS TRAY AND CONVEYOR BELT DRYERS; 9.6. ROTARY CYLINDRICAL DRYERS.
- 9.7. DRUM DRYERS FOR SOLUTIONS AND SLURRIES9.8. PNEUMATIC CONVEYING DRYERS; 9.9. FLASH AND RING DRYERS; 9.10. FLUIDIZED BED DRYERS; 9.11. SPRAY DRYERS; 10. MIXING AND AGITATION; 10.1. A BASIC STIRRED TANK DESIGN; 10.2. VESSEL FLOW PATTERNS; 10.3. AGITATOR POWER REQUIREMENTS; 10.4. IMPELLER PUMPING; 10.5. TANK BLENDING; 10.6. HEAT TRANSFER; 10.7. VORTEX DEPTH; 10.8. SOLID SUSPENSION; 10.9. SOLIDS DISSOLVING; 10.10. GAS-LIQUID DISPERSIONS; 10.11. LIQUID-LIQUID (L-L) DISPERSIONS; 10.12. PIPELINE MIXERS; 10.13. COMPARTMENTED COLUMNS; 10.14. FAST COMPETITIVE/CONSECUTIVE (C/C) REACTIONS.