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Frontiers in Spray Drying [Pehme köide]

(Soochow University), (Soochow University, China), (Monash University, Clayton, Australia), (Soochow University)
  • Formaat: Paperback / softback, 102 pages, kõrgus x laius: 234x156 mm, kaal: 200 g, 4 Tables, black and white; 46 Illustrations, black and white
  • Sari: Advances in Drying Science and Technology
  • Ilmumisaeg: 01-Feb-2022
  • Kirjastus: CRC Press
  • ISBN-10: 0367525038
  • ISBN-13: 9780367525033
Teised raamatud teemal:
Frontiers in Spray DryingSuurem pilt
  • Formaat: Paperback / softback, 102 pages, kõrgus x laius: 234x156 mm, kaal: 200 g, 4 Tables, black and white; 46 Illustrations, black and white
  • Sari: Advances in Drying Science and Technology
  • Ilmumisaeg: 01-Feb-2022
  • Kirjastus: CRC Press
  • ISBN-10: 0367525038
  • ISBN-13: 9780367525033
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9780367525033.html
Märksõnad:

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 these advances in their own specific spray drying applications. This book also discusses the handling and control of spray dried products.

  • Includes the latest techniques for use in the design and operation of spray drying operations

  • Covers the basic operations of spray drying that can be applied to different applications of spray drying

  • Discusses the handling and control of spray dried product qualities from a general approach, allowing readers to tailor these approaches to their own specific products

This book is aimed at professionals, researchers, and academics working in the fields of food, chemical, pharmaceutical, and industrial engineering.



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 and to apply these advances in their own specific spray drying applications.

Advances in Drying Science and Technology ix
Preface xi
Authors xiii
Chapter 1 Introduction
1(4)
1.1 What is Spray Drying?
1(2)
1.2 Chronological Development of the Process and Its Milestones
3(1)
1.3 Motivation and Layout of the Book
4(1)
Chapter 2 Droplet Drying Fundamentals
5(24)
2.1 The Formation of Individual Particles during Spray Drying
5(11)
2.1.1 The Drying Kinetics of Droplets during Spray Drying
7(9)
2.2 The Reaction Engineering Approach (REA) for Modeling Droplet Drying Behavior
16(4)
2.2.1 Theoretical Framework
16(4)
2.2.2 Application of the REA to Describe Droplet Drying Kinetics
20(1)
2.3 Characteristic Drying Curve Models
20(3)
2.3.1 Theoretical Framework
20(1)
2.3.2 How to Obtain the Parameter N from Experiments
21(2)
2.3.3 Compilation of Falling Rate Curves
23(1)
2.4 Prediction of Surface Component Composition, Migration, and Packing
23(6)
2.4.1 The Need for a Multiscale Model for Surface Composition Prediction
23(2)
2.4.2 Key Ideas and Calculation Procedure
25(2)
2.4.3 The Capabilities and Limitations of the Method
27(2)
Chapter 3 Spray Dryer Designs Including Multistage
29(6)
3.1 Co-Current versus Counter-Current
29(2)
3.2 Multistage Drying Process and Fines Return
31(2)
3.3 Atomization
33(2)
3.3.1 Selection and Balance between Viscosity and Concentration
33(1)
3.3.2 What Is the Initial Droplet Size Distribution?
34(1)
Chapter 4 Mass and Energy Aspects of Spray Drying
35(28)
4.1 Zero Dimension Modeling of Spray Dryers
35(7)
4.1.1 Equilibrium Outlet Moisture-Based Model
35(1)
4.1.2 SD2P® and the Slow Desorption Approach by INRA
36(2)
4.1.3 Effective Rate Approach (ERA)
38(4)
4.2 One-Dimensional Models
42(6)
4.2.1 Co-Current Model
42(3)
4.2.2 Counter-Current Model
45(3)
4.3 Computational Fluid Dynamic Models of Spray Dryers
48(5)
4.3.1 Components of a CFD Model of Spray Dryers
48(1)
4.3.2 The Trouble with Transient Simulations
49(4)
4.4 Bridging the Gap between Spray Dryer Modeling and Operation
53(1)
4.5 Modeling Stickiness
54(2)
4.5.1 Why Model Stickiness?
54(1)
4.5.2 Different Models and Their Comparison
54(2)
4.5.3 Measuring Stickiness Properties and Their Challenges
56(1)
4.6 Modeling Agglomeration
56(7)
4.6.1 Why Model Agglomeration?
56(1)
4.6.2 Rigorous Particulate Agglomeration Approach
57(1)
4.6.3 Equivalent Fused Particle Approach
58(2)
4.6.4 Agglomeration Mapping Approach
60(3)
Chapter 5 Monodisperse Droplet Spray Drying
63(10)
5.1 Why Is This Concept Important?
63(1)
5.2 Development of the Monodisperse Droplet Spray Dryer
63(7)
5.2.1 Experimental Development over the Years
63(3)
5.2.2 Recent Computational Developments
66(4)
5.3 Monodisperse Spray Drying Chamber and Operation Design
70(3)
5.3.1 Exploration of a Dryer with Swirling Flow
70(1)
5.3.2 Exploration of a Dryer with Moving Atomizer
71(1)
5.3.3 Scale-Up of Monodisperse Droplet Spray Dryer
72(1)
Chapter 6 Advanced Applications of Spray Drying
73(18)
6.1 Superheated Steam Spray Drying
73(5)
6.1.1 Improving the Wettability of Dairy Powder
73(2)
6.1.2 A Medium for In-Situ Crystallization Control
75(2)
6.1.3 Important Technical Considerations When Using Superheated Steam
77(1)
6.2 Controlling In-Situ Crystallization in Spray Dryers
78(6)
6.2.1 General Overview of In-Situ Crystallization
78(3)
6.2.2 Strategies for Materials That Are Slow to Crystallize
81(2)
6.2.3 Strategies for Materials That Are Fast to Crystallize
83(1)
6.3 Antisolvent Vapor Precipitation Spray Drying
84(7)
6.3.1 What Is This Concept About?
84(2)
6.3.2 Unique Early Findings and Applications
86(2)
6.3.3 Challenges and Latest Developments
88(3)
References 91(10)
Index 101
Nan Fu, Jie Xiao, Meng Wai Woo, Xiao Dong Chen