Pharmaceutical Technology - Pharmacy Department
Chapter 1: Introduction
1. Units and Dimensions - Pharmaceutical Engineering
2. Pharmaceutical Process Engineering
Chapter 2: Fluid Flow
1. Fluid Flow - Pharmaceutical Engineering
2. Fluids at Rest: Hydrostatics - Fluid Flow
3. The Measure of Pressure Intensity - Fluid Flow
4. Fluids in Motion - Fluid Flow
5. Bernoulli’s Theorem - Fluid Flow
6. Flow Measurement - Fluid Flow
7. Laminar and Turbulent Flows - Fluid Flow
8. Liquid Flow in Pipes - Fluid Flow
9. The Significance of Reynolds Number, Re - Fluid Flow
10. Calculation of the Pressure Drop in a Pipe Due to Friction - Fluid Flow
11. Flow in Tubes in Noncircular Cross Section - Fluid Flow
12. Frictional Losses at Pipe Fittings - Fluid Flow
13. Motion of Bodies in a Fluid - Fluid Flow
14. Flow of Fluids Through Packed Beds - Fluid Flow
15. Pumps - Fluid Flow
Chapter 3: Heat Transfer
1. Heat Transfer - Pharmaceutical Engineering
2. The Transfer of Heat Between Fluids - Heat Transfer
3. Heat Transfer Through a Wall - Heat Transfer
4. Heat Transfer in Pipes and Tubes
5. Heat Exchange Between a Fluid and a Solid Boundary
6. Application of Dimensional Analysis to Convective Heat Transfer - Heat Transfer
7. Heat Transfer to Boiling Liquids - Heat Transfer
8. Pool Boiling - Heat Transfer
9. Boiling Inside a Vertical Tube - Heat Transfer
10. Boiling With Forced Circulation - Heat Transfer
11. Heat Transfer From Condensing Vapors - Heat Transfer
12. Dropwise Condensation - Heat Transfer
13. Condensation of a Pure Vapor - Heat Transfer
14. Condensation of Mixed Vapors - Heat Transfer
15. Heat Transfer by Radiation - Heat Transfer
16. Exchange of Radiation - Heat Transfer
Chapter 4: Mass Transfer
1. Mass Transfer - Pharmaceutical Engineering
2. Molecular Diffusion in Gases - Mass Transfer
3. Equimolecular Counter Diffusion - Mass Transfer
4. Diffusion Through a Stationary, Nondiffusing Gas - Mass Transfer
5. Molecular Diffusion in Liquids - Mass Transfer
6. Mass Transfer in Turbulent and Laminar Flow
7. Interfacial Mass Transfer
Chapter 5: Powders
1. Powders - Pharmaceutical Engineering
2. Particle Properties of Powders - Pharmaceutical Engineering
3. Particle Interactions - Powders | Pharmaceutical Engineering
4. Flow of Powders - Pharmaceutical Engineering
5. Packing of Powders - Pharmaceutical Engineering
6. Granulation - Powders | Pharmaceutical Engineering
7. Fluidization - Powders | Pharmaceutical Engineering
8. Mixing and Blending - Powders | Pharmaceutical Engineering
9. Conclusion - Powders | Pharmaceutical Engineering
Chapter 6: Air Conditioning and Humidification
1. Air Conditioning and Humidification - Pharmaceutical Engineering
2. Vapor and Gas Mixtures - Air Conditioning and Humidification | Pharmaceutical Engineering
3. Hygrometry, the Measurement of Humidity - Vapor and Gas Mixtures | Pharmaceutical EngineeringAir Conditioning and Humidification | Pharmaceutical Engineering
4. Humidification and Dehumidification - Air Conditioning and Humidification | Pharmaceutical Engineering
Chapter 7: Drying
1. Drying - Pharmaceutical Engineering
2. The Theory of Drying - Pharmaceutical Engineering
3. Evaporation of Water into an Airstream - Drying | Pharmaceutical Engineering
4. Static Beds of Nonporous Solids - Drying | Pharmaceutical Engineering
5. The Internal Mechanism of Drying - Pharmaceutical Engineering
6. Static Beds of Porous Solids - Drying | Pharmaceutical Engineering
7. Through-Circulation Drying
8. Methods Involving Movement of the Solid - Drying | Pharmaceutical Engineering
9. Other Methods of Drying
10. Solids Moving Over a Hot Surface - Drying | Pharmaceutical Engineering
11. Batch Dryers - Pharmaceutical Engineering
12. Continuous Dryers - Pharmaceutical Engineering
Chapter 8: Solid-Liquid Extraction
1. Solid-Liquid Extraction - Pharmaceutical Engineering
2. Methods of Leaching - Solid-Liquid Extraction | Pharmaceutical Engineering
3. Leaching by Percolation - Solid-Liquid Extraction | Pharmaceutical Engineering
4. Leaching by Immersion - Solid-Liquid Extraction | Pharmaceutical Engineering
5. The Choice of Extraction Method - Solid-Liquid Extraction | Pharmaceutical Engineering
6. The Choice of Solvent - Solid-Liquid Extraction | Pharmaceutical Engineering
7. Factors Affecting the Rate of Leaching - Solid-Liquid Extraction | Pharmaceutical Engineering
8. The Size and Size Distribution of the Solid Particles - Solid-Liquid Extraction | Pharmaceutical Engineering
9. Temperature - Solid-Liquid Extraction | Pharmaceutical Engineering
10. The Relative Movement Imposed on the Solids and the Liquid - Solid-Liquid Extraction | Pharmaceutical Engineering
Chapter 9: Crystallization
1. Crystallization - Pharmaceutical Engineering
2. Crystallization in Melts - Pharmaceutical Engineering
3. Nucleation - Pharmaceutical Engineering
4. Crystal Growth - Crystallization | Pharmaceutical Engineering
5. Crystallization from Solutions - Pharmaceutical Engineering
6. Principles Underlying the Design and Operation of Crystallizers - Crystallization | Pharmaceutical Engineering
7. Production of Very Fine Crystals - Crystallization | Pharmaceutical Engineering
8. Production of Large Crystals - Crystallization | Pharmaceutical Engineering
9. Crystallizers - Pharmaceutical Engineering
Chapter 10: Evaporation and Distillation
1. Evaporation - Pharmaceutical Engineering
2. Heat Transfer to Boiling Liquids in an Evaporator - Pharmaceutical Engineering
3. The Physical Properties of Solution and Liquids - Pharmaceutical Engineering
4. Evaporators - Pharmaceutical Engineering
5. Binary Mixtures of Immiscible Liquids: Steam Distillation - Distillation | Pharmaceutical Engineering
6. Binary Mixtures of Miscible Liquids - Distillation | Pharmaceutical Engineering
7. Rectification or Fractionation - Distillation | Pharmaceutical Engineering
8. Separation of Azeotropes and Liquids of Similar Volatility - Distillation | Pharmaceutical Engineering
9. Molecular Distillation - Distillation | Pharmaceutical Engineering
Chapter 11: Filtration
1. Filtration - Pharmaceutical Engineering
2. The Theories of Filtration - Pharmaceutical Engineering
3. Factors Affecting the Rate of Filtration - Pharmaceutical Engineering
4. Filters - Pharmaceutical Engineering
5. Filter Media - Pharmaceutical Engineering
6. The Filtration of Air - Pharmaceutical Engineering
7. The Centrifuge - Pharmaceutical Engineering
Chapter 12: Size, Reduction and Classification
1. The Importance of Fine Particles in Pharmacy - Pharmaceutical Engineering
2. Fundamental Aspects of Crushing and Grinding - Pharmaceutical Engineering
3. The Efficiency of Grinding - Pharmaceutical Engineering
4. The Operation of Mills - Pharmaceutical Engineering
5. Grinding Equipment - Pharmaceutical Engineering
6. Classification or Size Separation - Pharmaceutical Engineering
Chapter 13: Mixing
1. Mixing - Pharmaceutical Engineering
2. The Scale of Scrutiny - Mixing | Pharmaceutical Engineering
3. The Mixing of Solids - Mixing | Pharmaceutical Engineering
4. Mixing Machines - Mixing | Pharmaceutical Engineering
5. The Mixing of Liquids - Mixing | Pharmaceutical Engineering
6. The Mixing of Liquids and Solids - Mixing | Pharmaceutical Engineering
Chapter 14: Solid Dosage Forms
1. Solid Dosage Forms - Pharmaceutical Engineering
2. Granulation - Solid Dosage Forms | Pharmaceutical Engineering
3. Hard Capsules - Solid Dosage Forms | Pharmaceutical Engineering
4. Tablets - Solid Dosage Forms | Pharmaceutical Engineering
5. Inhalation Products - Solid Dosage Forms | Pharmaceutical Engineering
Chapter 15: Sterilization
1. Sterilization - Pharmaceutical Engineering
2. Thermal Stabilization - Pharmaceutical Engineering
3. Radiation - Sterilization | Pharmaceutical Engineering
4. Ethylene Oxide - Sterilization | Pharmaceutical Engineering
5. Sterile Filtration - Sterilization | Pharmaceutical Engineering
Chapter 16: Bioprocessing
1. Bioprocessing - Pharmaceutical Engineering
2. Pharmaceutical Water Systems - Bioprocessing | Pharmaceutical Engineering
3. Cell Kinetics - Bioprocessing | Pharmaceutical Engineering
4. Bioreactor Design - Bioprocessing | Pharmaceutical Engineering
5. Bioprocessing Plant Design - Pharmaceutical Engineering
6. Protein Purification - Bioprocessing | Pharmaceutical Engineering
Chapter 17: Quality by Design
1. Quality by Design - Pharmaceutical Engineering
2. Regulatory Initiative - Quality by Design | Pharmaceutical Engineering
3. Tools for Process Development - Quality by Design | Pharmaceutical Engineering
Chapter 18: Statistical Experimental Design
1. Statistical Experimental Design - Pharmaceutical Engineering
2. Sampling - Statistical Experimental Design | Pharmaceutical Engineering
3. Randomized and Latin Square Designs - Statistical Experimental Design | Pharmaceutical Engineering
4. Factorial Design - Statistical Experimental Design | Pharmaceutical Engineering
5. Response Surface Maps - Statistical Experimental Design | Pharmaceutical Engineering
6. Design Space - Statistical Experimental Design | Pharmaceutical Engineering
Chapter 19: Process Analytical Technology
1. Process Analytical Technology - Pharmaceutical Engineering
Chapter 20: Conclusion
1. Conclusion - Pharmaceutical Engineering
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