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Confectionery and chocolate manufacture has been dominated by large-scale industrial processing for several decades. It is often the case though, that a trial and error approach is applied to the development of new products and processes, rather than verified scientific principles. Confectionery and Chocolate Engineering: Principles and Applications, Second edition, adds to information presented in the first edition on essential topics such as food safety, quality assurance, sweets for special nutritional purposes, artizan chocolate, and confectioneries. In addition, information is provided on…mehr
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- Produktdetails
- Verlag: John Wiley & Sons
- Seitenzahl: 792
- Erscheinungstermin: 2. Dezember 2016
- Englisch
- ISBN-13: 9781118939765
- Artikelnr.: 47386394
- Verlag: John Wiley & Sons
- Seitenzahl: 792
- Erscheinungstermin: 2. Dezember 2016
- Englisch
- ISBN-13: 9781118939765
- Artikelnr.: 47386394
- Herstellerkennzeichnung Die Herstellerinformationen sind derzeit nicht verfügbar.
C(68
F) 643 3 Survey of fluid models: some trends in rheology 645 A3.1 Decomposition method for calculation of flow rate of rheological models 645 A3.1.1 The principle of the decomposition method 645 A3.1.2 Bingham model 646 A3.1.3 Casson models 647 A3.1.4 Herschel-Bulkley-Porst-Markowitsch-Houwink (HBPMH) (or generalized Ostwald-de Waele) model 651 A3.1.5 Ostwald-de Waele model (The power law) 653 A3.2 Calculation of the friction coefficient (
) of non-newtonian fluids in the laminar region 653 A3.3 Tensorial representation of constitutive equations: The fading memory of viscoelastic fluids 654 A3.3.1 Objective derivatives and tensorial representation of constitutive equations 654 A3.3.2 Boltzmann's equation for the stress in viscoelastic solids: The fading memory of viscoelastic fluids 656 A3.3.3 Constitutive equations of viscoelastic fluids 657 A3.3.4 Application of the constitutive equations to dough rheology 658 A3.3.5 Rheological properties at the cellular and macroscopic scale 659 A3.4 Computer simulations in food rheology and science 660 A3.5 Ultrasonic and photoacoustic testing 660 A3.5.1 Ultrasonic testing 660 A3.5.2 Photoacoustic testing 661 Further reading 661 4 Fractals 663 A4.1 Irregular forms: fractal geometry 663 A4.2 Box-counting dimension 664 A4.3 Particle-counting method 665 A4.4 Fractal backbone dimension 666 Further reading 666 5 Introduction to structure theory 668 A5.1 The principles of the structure theory of blickle and seitz 668 A5.1.1 Attributes and their relations: structure 668 A5.1.2 Structure of attributes: a qualitative description 669 A5.1.3 Hierarchic structures 670 A5.1.4 Structure of measure: a quantitative description 670 A5.1.5 Conservative elements: conservative substantial fragments 670 A5.1.6 New way of looking 672 A5.2 Modelling a part of fudge processing plant by structure theory 673 Further reading 674 6 Technological layouts 675 Further reading 686 References 687 Index 737
C(68
F) 643 3 Survey of fluid models: some trends in rheology 645 A3.1 Decomposition method for calculation of flow rate of rheological models 645 A3.1.1 The principle of the decomposition method 645 A3.1.2 Bingham model 646 A3.1.3 Casson models 647 A3.1.4 Herschel-Bulkley-Porst-Markowitsch-Houwink (HBPMH) (or generalized Ostwald-de Waele) model 651 A3.1.5 Ostwald-de Waele model (The power law) 653 A3.2 Calculation of the friction coefficient (
) of non-newtonian fluids in the laminar region 653 A3.3 Tensorial representation of constitutive equations: The fading memory of viscoelastic fluids 654 A3.3.1 Objective derivatives and tensorial representation of constitutive equations 654 A3.3.2 Boltzmann's equation for the stress in viscoelastic solids: The fading memory of viscoelastic fluids 656 A3.3.3 Constitutive equations of viscoelastic fluids 657 A3.3.4 Application of the constitutive equations to dough rheology 658 A3.3.5 Rheological properties at the cellular and macroscopic scale 659 A3.4 Computer simulations in food rheology and science 660 A3.5 Ultrasonic and photoacoustic testing 660 A3.5.1 Ultrasonic testing 660 A3.5.2 Photoacoustic testing 661 Further reading 661 4 Fractals 663 A4.1 Irregular forms: fractal geometry 663 A4.2 Box-counting dimension 664 A4.3 Particle-counting method 665 A4.4 Fractal backbone dimension 666 Further reading 666 5 Introduction to structure theory 668 A5.1 The principles of the structure theory of blickle and seitz 668 A5.1.1 Attributes and their relations: structure 668 A5.1.2 Structure of attributes: a qualitative description 669 A5.1.3 Hierarchic structures 670 A5.1.4 Structure of measure: a quantitative description 670 A5.1.5 Conservative elements: conservative substantial fragments 670 A5.1.6 New way of looking 672 A5.2 Modelling a part of fudge processing plant by structure theory 673 Further reading 674 6 Technological layouts 675 Further reading 686 References 687 Index 737