Frontiers in spray drying /
This book covers the latest developments and advances in spray drying and describes how they impact the basic aspect of designing and operating spray dryers. This generic approach allows users to understand how different basic aspects of spray drying have advanced. Users will learn how to apply thes...
| Main Authors: | , , , |
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| Corporate Author: | |
| Format: | eBook |
| Language: | English |
| Published: |
Boca Raton, FL :
CRC Press,
2020.
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| Edition: | First edition. |
| Series: | Advances in drying science & technology.
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| Subjects: | |
| Online Access: | Connect to the full text of this electronic book |
Table of Contents:
- Cover
- Title Page
- Copyright Page
- Table of Contents
- Preface
- Authors
- Chapter 1 Introduction
- 1.1 What is Spray Drying?
- 1.2 Chronological Development of the Process and Its Milestones
- 1.3 Motivation and Layout of the Book
- Chapter 2 Droplet Drying Fundamentals
- 2.1 The Formation of Individual Particles during Spray Drying
- 2.1.1 The Drying Kinetics of Droplets during Spray Drying
- 2.2 The Reaction Engineering Approach (REA) for Modeling Droplet Drying Behavior
- 2.2.1 Theoretical Framework
- 2.2.2 Application of the REA to Describe Droplet Drying Kinetics
- 2.3 Characteristic Drying Curve Models
- 2.3.1 Theoretical Framework
- 2.3.2 How to Obtain the Parameter N from Experiments
- 2.3.3 Compilation of Falling Rate Curves
- 2.4 Prediction of Surface Component Composition, Migration, and Packing
- 2.4.1 The Need for a Multiscale Model for Surface Composition Prediction
- 2.4.2 Key Ideas and Calculation Procedure
- 2.4.3 The Capabilities and Limitations of the Method
- Chapter 3 Spray Dryer Designs Including Multistage
- 3.1 Co-Current versus Counter-Current
- 3.2 Multistage Drying Process and Fines Return
- 3.3 Atomization
- 3.3.1 Selection and Balance between Viscosity and Concentration
- 3.3.2 What Is the Initial Droplet Size Distribution?
- Chapter 4 Mass and Energy Aspects of Spray Drying
- 4.1 Zero Dimension Modeling of Spray Dryers
- 4.1.1 Equilibrium Outlet Moisture-Based Model
- 4.1.2 SD2P® and the Slow Desorption Approach by INRA
- 4.1.3 Effective Rate Approach (ERA)
- 4.2 One-Dimensional Models
- 4.2.1 Co-Current Model
- 4.2.2 Counter-Current Model
- 4.3 Computational Fluid Dynamic Models of Spray Dryers
- 4.3.1 Components of a CFD Model of Spray Dryers
- 4.3.2 The Trouble with Transient Simulations
- 4.4 Bridging the Gap between Spray Dryer Modeling and Operation
- 4.5 Modeling Stickiness
- 4.5.1 Why Model Stickiness?
- 4.5.2 Different Models and Their Comparison
- 4.5.3 Measuring Stickiness Properties and Their Challenges
- 4.6 Modeling Agglomeration
- 4.6.1 Why Model Agglomeration?
- 4.6.2 Rigorous Particulate Agglomeration Approach
- 4.6.3 Equivalent Fused Particle Approach
- 4.6.4 Agglomeration Mapping Approach
- Chapter 5 Monodisperse Droplet Spray Drying
- 5.1 Why Is This Concept Important?
- 5.2 Development of the Monodisperse Droplet Spray Dryer
- 5.2.1 Experimental Development over the Years
- 5.2.2 Recent Computational Developments
- 5.3 Monodisperse Spray Drying Chamber and Operation Design
- 5.3.1 Exploration of a Dryer with Swirling Flow
- 5.3.2 Exploration of a Dryer with Moving Atomizer
- 5.3.3 Scale-Up of Monodisperse Droplet Spray Dryer
- Chapter 6 Advanced Applications of Spray Drying
- 6.1 Superheated Steam Spray Drying
- 6.1.1 Improving the Wettability of Dairy Powder
- 6.1.2 A Medium for In-Situ Crystallization Control