Description

Book Synopsis
Part of the IFT (Institute of Food Technologists) series, this book discusses multiphysics modeling and its application in the development, optimization, and scale-up of emerging food processing technologies. The book covers recent research outcomes to demonstrate process efficiency and the impact on scalability, safety, and quality, and technologies including High Pressure Processing, High Pressure Thermal Sterilization, Radiofrequency, Ultrasound, Ultraviolet, and Pulsed Electric Fields Processing. Ideal for food and process engineers, food technologists, equipment designers, microbiologists, and research and development personnel, this book covers the importance and the methods for applying multiphysics modeling for the design, development, and application of these technologies.

Table of Contents

Preface ix

Contributors xiii

1. Introduction to Innovative Food Processing Technologies: Background, Advantages, Issues, and Need for Multiphysics Modeling 3
Gustavo V. Barbosa-Cánovas, Abdul Ghani Albaali, Pablo Juliano, and Kai Knoerzer

2. The Need for Thermophysical Properties in Simulating Emerging Food Processing Technologies 23
Pablo Juliano, Francisco Javier Trujillo, Gustavo V. Barbosa-Cánovas, and Kai Knoerzer

3. Neural Networks: Their Role in High-Pressure Processing 39
José S. Torrecilla and Pedro D. Sanz

4. Computational Fluid Dynamics Applied in High-Pressure Processing Scale-Up 57
Cornelia Rauh and Antonio Delgado

5. Computational Fluid Dynamics Applied in High-Pressure High-Temperature Processes: Spore Inactivation Distribution and Process Optimization 75
Pablo Juliano, Kai Knoerzer, and Cornelis Versteeg

6. Computer Simulation for Microwave Heating 101
Hao Chen and Juming Tang

7. Simulating and Measuring Transient Three-Dimensional Temperature Distributions in Microwave Processing 131
Kai Knoerzer, Marc Regier, and Helmar Schubert

8. Multiphysics Modeling of Ohmic Heating 155
Peter J. Fryer, Georgina Porras-Parral, and Serafim Bakalis

9. Basics for Modeling of Pulsed Electric Field Processing of Foods 171
Nicolás Meneses, Henry Jaeger, and Dietrich Knorr

10. Computational Fluid Dynamics Applied in Pulsed Electric Field Preservation of Liquid Foods 193
Nicolás Meneses, Henry Jaeger, and Dietrich Knorr

11. Novel, Multi-Objective Optimization of Pulsed Electric Field Processing for Liquid Food Treatment 209
Jens Krauss, Özgür Ertunç, Cornelia Rauh, and Antonio Delgado

12. Modeling the Acoustic Field and Streaming Induced by an Ultrasonic Horn Reactor 233
Francisco Javier Trujillo and Kai Knoerzer

13. Computational Study of Ultrasound-Assisted Drying of Food Materials 265
Enrique Riera, José Vicente García-Pérez, Juan Andrés Cárcel, Victor M. Acosta, and Juan A. Gallego-Juárez

14. Characterization and Simulation of Ultraviolet Processing of Liquid Foods Using Computational Fluid Dynamics 303
Larry Forney, Tatiana Koutchma, and Zhengcai Ye

15. Multiphysics Modeling of Ultraviolet Disinfection of Liquid Food—Performance Evaluation Using a Concept of Disinfection Efficiency 325
Huachen Pan

16. Continuous Chromatographic Separation Technology—Modeling and Simulation 335
Filip Janakievski

17. The Future of Multiphysics Modeling of Innovative Food Processing Technologies 353
Peter J. Fryer, Kai Knoerzer, and Pablo Juliano

Index 365

Innovative Food Processing Technologies

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A Hardback by Kai Knoerzer, Pablo Juliano, Peter Roupas

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    Publisher: John Wiley and Sons Ltd
    Publication Date: 25/03/2011
    ISBN13: 9780813817545, 978-0813817545
    ISBN10: 0813817544
    Also in:
    Chemistry Science: general issues Other technologies and applied sciences

    Description

    Book Synopsis
    Part of the IFT (Institute of Food Technologists) series, this book discusses multiphysics modeling and its application in the development, optimization, and scale-up of emerging food processing technologies. The book covers recent research outcomes to demonstrate process efficiency and the impact on scalability, safety, and quality, and technologies including High Pressure Processing, High Pressure Thermal Sterilization, Radiofrequency, Ultrasound, Ultraviolet, and Pulsed Electric Fields Processing. Ideal for food and process engineers, food technologists, equipment designers, microbiologists, and research and development personnel, this book covers the importance and the methods for applying multiphysics modeling for the design, development, and application of these technologies.

    Table of Contents

    Preface ix

    Contributors xiii

    1. Introduction to Innovative Food Processing Technologies: Background, Advantages, Issues, and Need for Multiphysics Modeling 3
    Gustavo V. Barbosa-Cánovas, Abdul Ghani Albaali, Pablo Juliano, and Kai Knoerzer

    2. The Need for Thermophysical Properties in Simulating Emerging Food Processing Technologies 23
    Pablo Juliano, Francisco Javier Trujillo, Gustavo V. Barbosa-Cánovas, and Kai Knoerzer

    3. Neural Networks: Their Role in High-Pressure Processing 39
    José S. Torrecilla and Pedro D. Sanz

    4. Computational Fluid Dynamics Applied in High-Pressure Processing Scale-Up 57
    Cornelia Rauh and Antonio Delgado

    5. Computational Fluid Dynamics Applied in High-Pressure High-Temperature Processes: Spore Inactivation Distribution and Process Optimization 75
    Pablo Juliano, Kai Knoerzer, and Cornelis Versteeg

    6. Computer Simulation for Microwave Heating 101
    Hao Chen and Juming Tang

    7. Simulating and Measuring Transient Three-Dimensional Temperature Distributions in Microwave Processing 131
    Kai Knoerzer, Marc Regier, and Helmar Schubert

    8. Multiphysics Modeling of Ohmic Heating 155
    Peter J. Fryer, Georgina Porras-Parral, and Serafim Bakalis

    9. Basics for Modeling of Pulsed Electric Field Processing of Foods 171
    Nicolás Meneses, Henry Jaeger, and Dietrich Knorr

    10. Computational Fluid Dynamics Applied in Pulsed Electric Field Preservation of Liquid Foods 193
    Nicolás Meneses, Henry Jaeger, and Dietrich Knorr

    11. Novel, Multi-Objective Optimization of Pulsed Electric Field Processing for Liquid Food Treatment 209
    Jens Krauss, Özgür Ertunç, Cornelia Rauh, and Antonio Delgado

    12. Modeling the Acoustic Field and Streaming Induced by an Ultrasonic Horn Reactor 233
    Francisco Javier Trujillo and Kai Knoerzer

    13. Computational Study of Ultrasound-Assisted Drying of Food Materials 265
    Enrique Riera, José Vicente García-Pérez, Juan Andrés Cárcel, Victor M. Acosta, and Juan A. Gallego-Juárez

    14. Characterization and Simulation of Ultraviolet Processing of Liquid Foods Using Computational Fluid Dynamics 303
    Larry Forney, Tatiana Koutchma, and Zhengcai Ye

    15. Multiphysics Modeling of Ultraviolet Disinfection of Liquid Food—Performance Evaluation Using a Concept of Disinfection Efficiency 325
    Huachen Pan

    16. Continuous Chromatographic Separation Technology—Modeling and Simulation 335
    Filip Janakievski

    17. The Future of Multiphysics Modeling of Innovative Food Processing Technologies 353
    Peter J. Fryer, Kai Knoerzer, and Pablo Juliano

    Index 365

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