| Description |
1 online resource (161 pages) |
| Contents |
Front Cover; Preface; The Author; Introduction; Units of Measure; Table of Contents; Chapter 1: Liquid Flow through Filter Media; 1.1 Overview; 1.2 Understanding the Plot; 1.3 Separating Viscous Flow from Inertia Flow; 1.4 The Meaning of Permeability; 1.5 Concepts of Pore Size; 1.6 Complicated Pore Geometry; 1.7 Pore Size and Porosity; 1.8 Different Kinds of Average Pore Diameters; 1.9 Deducing the Flow-Averaged Pore Diameter; 1.10 The Streaming Potential; 1.11 Compatibility of Different Liquids with Different Filter Media; Chapter 2: Gas Flow through Filter Media; 2.1 Introduction |
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880-01 4.3.1 Calculations around the Flow Decay Test4.3.2 Example of a Flow Decay Test; 4.4 The Drainage Test; 4.5 The Mercury-Intrusion Test; 4.6 The Oil-Penetration Test; Chapter 5: Particles in Fluids; 5.1 Introduction; 5.2 Clarity of Streams; 5.3 The Meanings of Particle Size and How to Measure It; 5.4 Particle-Size Distributions; 5.5 Comparing Different Particle Counters; 5.6 The Meaning of Particle-Size Distribution in Fine Grade Test Dust; 5.6.1 Deducing Number Distribution from Mass Distribution; 5.6.2 Cole's Method of Reaching Number Distribution; 5.6.3 An NFPA Standard |
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880-01/(S 2.2 Filters with Rated Pore Diameters Larger than 0.5 μm2.3 Filters with Rated Pore Diameters Smaller than 0.5 μm; 2.4 Examples of Gas-Slip Flow Comparison to Liquid-Viscous Flow; 2.5 Comparing Liquid Flow to Gas Flow; Chapter 3: The Most Probable Pore-Size Distribution; 3.1 Modeling Random Pore-Size Distributions; 3.2 Math Model A; 3.3 Math Model B; 3.4 Laminar Fluid Flow through These Models; 3.5 Fluid Flow through Many Layers; Chapter 4: Characterizing Filter Media Using Fluid Intrusion Measurements; 4.1 The Bubble Point; 4.2 The Extended Bubble-Point Test; 4.3 The Integrity Test |
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5.6.4 Other Grades of Siliceous Test Dusts5.6.5 Analytical Sieves for Deducing Particle-Size Distributions; 5.7 Mathematical Models of Particle-Size Distributions; Chapter 6: Describing Filtration Efficiency; 6.1 Problems of Definition; 6.2 When Clarity Means Particle-Size Distributions; 6.3 Comparing the Particle-Size Distribution in the Feed Stream to That in the Filtrate; 6.4 Other Comparisons of Clarity; 6.5 Absolute Filtration; 6.6 Deducing Pore Sizes from Filtration Tests; Chapter 7: Structure and Permeability of Filter Media; 7.1 Random Array Filter Media |
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7.2 The Kozeny-Carman Constant7.3 The Kozeny Factor for Fibrous Media; 7.4 The Kozeny-Carman Factor for Granular Media; 7.5 Other Aspects with Granular Media; Chapter 8: Different Views of Filtration; 8.1 Choosing Filter Media; 8.2 Views of the NFPA and the SAE; 8.3 Views in the Chemical Process Industry; 8.4 Views in Cross-Flow Filtration; 8.5 Separating Immiscible Fluids; 8.6 Filtration Testing Guidelines; Chapter 9: Filtering Liquids; 9.1 General Principles; 9.2 Zeta Potential; 9.2.1 Examples of Zeta Potential; 9.3 Sieving Filtration; 9.4 Another View of Sieving Filtration |
| Summary |
Completely revised and updated, Fluid Sterilization by Filtration, Third Edition discusses the use of gas and fluid filtration systems in sterilization technology. Packed with information useful to both the novice and the expert, it includes line-drawing illustrations, filtration setups, and plots of math functions illustrating fluid flows through filter media built from a random packing of solids. The book provides in-depth discussions of general filtration, specific membranes used in filtration, integrity testing, earlier filtration steps, and cross-flow filtration. It also includes a useful |
| Notes |
9.5 Absolute Filtration |
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Print version record |
| Subject |
Drugs -- Sterilization.
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Filters and filtration.
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Sterilization.
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Drugs -- Sterilization
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Filters and filtration
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Sterilization
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| Form |
Electronic book
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| ISBN |
9781135492892 |
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1135492891 |
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