| Edition |
5th ed. / J.F. Richardson and J.H. Harker with J.R. Backhurst. |
| Description |
1 online resource (xxxiii, 1229 pages) : illustrations |
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text txt rdacontent |
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computer c rdamedia |
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online resource cr rdacarrier |
| Note |
Previous ed. published as: Chemical engineering. Oxford : Pergamon, 1991. |
| Bibliography |
Includes bibliographical references and index. |
| Note |
Print version record. |
| Summary |
Chemical Engineering Volume 2 covers the properties of particulate systems, including the character of individual particles and their behaviour in fluids. Sedimentation of particles, both singly and at high concentrations, flow in packed and fluidised beads and filtration are then examined. The latter part of the book deals with separation processes, such as distillation and gas absorption, which illustrate applications of the fundamental principles of mass transfer introduced in Chemical Engineering Volume 1. In conclusion, several techniques of growing importance - adsorption, ion exchange, chromatographic and membrane separations, and process intensification - are described. * A logical progression of chemical engineering concepts, volume 2 builds on fundamental principles contained in Chemical Engineering volume 1 and these volumes are fully cross-referenced * Reflects the growth in complexity and stature of chemical engineering over the last few years * Supported with further reading at the end of each chapter and graded problems at the end of the book. |
| Contents |
Cover; Contents; Preface; Acknowledgements; Introduction; Chapter 1. Particulate Solids; 1.1 Introduction; 1.2 Particle characterisation; 1.3 Particulate solids in bulk; 1.4 Blending of solid particles; 1.5 Classification of solid particles; 1.6 Separation of suspended solid particles from fluids; 1.7 Further reading; 1.8 References; 1.9 Nomenclature; Chapter 2. Particle size reduction and enlargement; 2.1 Introduction; 2.2 Size reduction of solids; 2.3 Types of crushing equipment; 2.4 Size enlargement of particles; 2.5 Further reading; 2.6 References; 2.7 Nomenclature |
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Chapter 3. Motion of particles in a fluid3.1 Introduction; 3.2 Flow past a cylinder and a sphere; 3.3 The drag force on a spherical particle; 3.4 Non-spherical particles; 3.5 Motion of bubbles and drops; 3.6 Drag forces and settling velocities for particles in non-Newtonian Fluids; 3.7 Accelerating motion of a particle in the gravitational Field; 3.8 Motion of particles in a centrifugal Field; 3.9 Further reading; 3.10 References; 3.11 Nomenclature; Chapter 4. Flow of fluids through granular beds and packed columns; 4.1 Introduction; 4.2 Flow of a single fluid through a granular bed |
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4.3 Dispersion4.4 Heat transfer in packed beds; 4.5 Packed columns; 4.6 Further reading; 4.7 References; 4.8 Nomenclature; Chapter 5. Sedimentation; 5.1 Introduction; 5.2 Sedimentation of Fine particles; 5.3 Sedimentation of coarse particles; 5.4 Further reading; 5.5 References; 5.6 Nomenclature; Chapter 6. Fluidisation; 6.1 Characteristics of fluidised systems; 6.2 Liquid-solids systems; 6.3 Gas-solids systems; 6.4 Gas-liquid-solids fluidised beds; 6.5 Heat transfer to a boundary surface; 6.6 Mass and heat transfer between fluid and particles; 6.7 Summary of the properties of fluidised beds |
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6.8 Applications of the fluidised solids technique6.9 Further reading; 6.10 References; 6.11 Nomenclature; Chapter 7. Liquid filtration; 7.1 Introduction; 7.2 Filtration theory; 7.3 Filtration practice; 7.4 Filtration equipment; 7.5 Further reading; 7.6 References; 7.7 Nomenclature; Chapter 8. Membrane separation processes; 8.1 Introduction; 8.2 Classification of membrane processes; 8.3 The nature of synthetic membranes; 8.4 General membrane equation; 8.5 Cross-flow microfitration; 8.6 Ultrafiltration; 8.7 Reverse osmosis; 8.8 Membrane modules and plant configuration; 8.9 Membrane fouling |
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8.10 Electrodialysis8.11 Reverse osmosis water treatment plant; 8.12 Pervaporation; 8.13 Liquid membranes; 8.14 Gas separations; 8.15 Further reading; 8.16 References; 8.17 Nomenclature; Chapter 9. Centrifugal separations; 9.1 Introduction; 9.2 Shape of the free surface of the liquid; 9.3 Centrifugal pressure; 9.4 Separation of immiscible liquids of different densities; 9.5 Sedimentation in a centrifugal field; 9.6 Filtration in a centrifuge; 9.7 Mechanical design; 9.8 Centrifugal equipment; 9.9 Further reading; 9.10 References; 9.11 Nomenclature; Chapter 10. Leaching; 10.1 Introduction |
| Subject |
Particles.
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Separation (Technology)
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Chemical engineering.
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Chemical Engineering |
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Particules (Matière)
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Séparation (Technologie)
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Génie chimique.
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chemical engineering.
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TECHNOLOGY & ENGINEERING -- Chemical & Biochemical.
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SCIENCE -- Chemistry -- Industrial & Technical.
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Chemical engineering
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Particles
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Separation (Technology)
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Chemische technologie.
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| Added Author |
Harker, J. H. (John Hadlett), 1937-
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Backhurst, J. R.
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Coulson, J. M. (John Metcalfe).
Chemical engineering.
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| Added Title |
Chemical engineering. Vol. 2, Particle technology and separation processes |
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Particle technology and separation processes |
| Other Form: |
Print version: Richardson, J.F. (John Francis). Coulson and Richardson's chemical engineering. Vol. 2, Particle technology and separation processes. 5th ed. Oxford : Butterworth-Heinemann, 2002 0750644451 (OCoLC)48754415 |
| ISBN |
9780080490649 (electronic bk.) |
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0080490646 (electronic bk.) |
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6610943567 |
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9786610943562 |
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0585470944 |
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9780585470948 |
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0750644451 (print) |
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9780750644457 (print) |
| Standard No. |
AU@ 000045829759 |
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DEBBG BV040922347 |
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DEBSZ 399118152 |
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DEBSZ 412846705 |
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GBVCP 803173482 |
|
NZ1 10533836 |
|
NZ1 16077409 |
|
YDXCP 2335086 |
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AU@ 000073112506 |
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