05502nam 2200685Ia 450 991013357890332120210604101556.00-470-95942-81-62198-225-41-283-05236-997866130523600-470-95941-X0-470-95943-6(CKB)3400000000000299(EBL)700351(OCoLC)794326231(SSID)ssj0000477770(PQKBManifestationID)11343970(PQKBTitleCode)TC0000477770(PQKBWorkID)10513405(PQKB)10681800(MiAaPQ)EBC700351(EXLCZ)99340000000000029920101118d2011 uy 0engur|n|---|||||txtccrInnovative food processing technologies[electronic resource] advances in multiphysics simulation /Kai Knoerzer ... [et al.], editorsChichester, West Sussex, UK ;Ames, Iowa Wiley-Blackwell/IFT Press20111 online resource (1078 p.)IFT Press seriesDescription based upon print version of record.0-8138-1754-4 Includes bibliographical references and index.Cover; Half title page; IFT Press; Title page; Copyright page; Titles in the IFT Press series; Preface; Contributors; 1.1. Introduction; 1.2. Multiphysics Modeling; 1.3. Innovative Food Processing Technologies; 1.4. Modeling Challenges; 1.5. Concluding Remarks; Chapter 1 Introduction to Innovative Food Processing Technologies: Background, Advantages, Issues, and Need for Multiphysics Modeling; 2.1. Introduction; 2.2. Definitions and Methods to Determine Thermophysical Properties; 2.3. Final Remarks and Future Recommendations; NotationsChapter 2 The Need for Thermophysical Properties in Simulating Emerging Food Processing Technologies3.1. Brief History of NNs; 3.2. Basis of NNs; 3.3. How NNs Are Helping the Chemical Industry; 3.4. The Role of NNs in the Food Industry; 3.5. NNs in High-Pressure Processes; 3.6. A Macroscopic Model for Thermal Exchange in an HPP System; 3.7. Conclusions; Acknowledgments; Notation; Chapter 3 Neural Networks: Their Role in High-Pressure Processing; 4.1. Introduction; 4.2. Thermofluiddynamic Phenomena under High-Pressure Conditions4.3. Mathematical Modeling and Numerical Simulation of High-Pressure Processes4.4. Prediction of Process Impact and Control of High-Pressure Treatment; 4.5. Conclusions and Outlook; Acknowledgment; Notation; Chapter 4 Computational Fluid Dynamics Applied in High-Pressure Processing Scale-Up; 5.1. Introduction; 5.2. Description of an HPHT Processing System; 5.3. Developing a CFD Model for an HPHT System; 5.4. Prediction of Temperature Uniformity and Flow by Means of CFD Modeling; 5.5. Distribution of Process Sterility by Coupling with Kinetic C. botulinum Inactivation Models5.6. Dimensionless Parameters to Express the Process Performance5.7. Overview and Future Challenges; Notation; Chapter 5 Computational Fluid Dynamics Applied in High-Pressure High-Temperature Processes: Spore Inactivation Distribution and Process Optimization; 6.1. Introduction; 6.2. EM Wave Equations; 6.3. Solutions to Maxwell's Equations; 6.4. MW Heating Equations; 6.5. Computer Simulation of MW Heating; 6.6. Simulation Model for MW Sterilization; 6.7. Conclusion; Notation; Chapter 6 Computer Simulation for Microwave Heating; 7.1. Introduction; 7.2. Microwave Thermal Modeling7.3. Temperature Measurement (Mapping) Methods in Microwave Fields7.4. Examples of Validated Microwave Heating Models; 7.5. Summary, Conclusions, and Outlook; Notation; Chapter 7 Simulating and Measuring Transient Three-Dimensional Temperature Distributions in Microwave Processing; 8.1. Introduction; 8.2. Electrical Heating of Foods: Governing Processes; 8.3. Modeling and Validation; 8.4. Further Development of Ohmic Heating and Appropriate Modeling; 8.5. Conclusions; Notation; Chapter 8 Multiphysics Modeling of Ohmic Heating; 9.1. Introduction9.2. Governing Equations for Multiphysics Simulation of PEF ProcessingPart 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, microbiologistsIFT Press series.Food industry and tradeMathematical modelsFood industry and tradeSimulation methodsElectronic books.Food industry and tradeMathematical models.Food industry and tradeSimulation methods.664.020113664/.020113TEC012000bisacshKnoerzer Kai875174MiAaPQMiAaPQMiAaPQBOOK9910133578903321Innovative food processing technologies2205967UNINA