Summary: Fpe 30306 | 9990002019708 | Wageningen University
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1 Food structures, building blocks and food properties
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1.1 Introduction to food structure
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What is a food structure?
It is an objective feature of foods, namely the spatial organization of the building blocks present in foods. -
Where are the macro- and microstructure mainly influenced by?
Themacrostructure by the processing conditions.
The microstructure by the ingredients. -
What is the difference between an isotropic and anisotropic structure?
Isotropic --> structures have equal properties in all directions (e.g. Cheese)Anisotropic --> structures have different properties that depend on theorientation --> alignments (e.g. Meat) -
1.2 The building blocks for food structuring
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What are the 4 building blocks of food products?
- Water
- Fats
- Carbohydrates
- Proteins
- Water
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1.2.1 Water
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Does water have a higher melting and boiling point than other small molecules?
Yes -
Is the heat capacity and heat of evaporation of water large or small?
Large -
1.2.1.1 Fats and oils (lipids)
This is a preview. There are 1 more flashcards available for chapter 1.2.1.1
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What is the prime component of fats and oils?
Triacylglycerols (TAGs) -
What is the melting point of fat dependent on?
Chain length andsaturation .
Longer chains that are fully saturated --> high boiling point
Unsaturated groups --> lower boiling point -
Fat is never a single ingredient T/F
True, fat present in food products is not well-defined, but consists of many different fat components. -
What is a unique property of fats?
It can formcrystals . It makes the product behave as a solid and has an increased melting point.
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Topics related to Summary: Fpe 30306
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Food structures, building blocks and food properties - Solid-liquid transitions - Liquid to solid: Crystallization
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Food structures, building blocks and food properties - Solid-liquid transitions - Glass transition and the glassy state
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Food structures, building blocks and food properties - Exercises
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Food structures, building blocks and food properties - Questions
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State diagram and the glass transition - The states of foods
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Gases, vapours and liquids and vapour - Gases and vapours - Liquids, rubbers and gels
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Gases, vapours and liquids and vapour - Gases and vapours - The glassy state
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Gases, vapours and liquids and vapour - Gases and vapours - Crystalline state
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State diagram and the glass transition - Diagrams
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State diagram and the glass transition - The glass transition - Viscosity and temperature dependence of the glass transition
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State diagram and the glass transition - Semi-crystallinity, chemical and physical crosslinking - The melting temperature of food biopolymers
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State diagram and the glass transition - Some examples - Hard candies
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Some examples - Encapsulation - Encapsulation by spray drying
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State diagram and the glass transition - Questions
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Crystallization and matrix formation - Introduction
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Crystallization and matrix formation - Crystals
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Crystallization and matrix formation - Crystallization and the state diagram
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Crystallization and matrix formation - Crystallization dynamics - Nucleation
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Crystallization and matrix formation - Crystallization dynamics - Crystal growth
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Crystallization and matrix formation - Structure stability and evolution
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Crystallization and matrix formation - Freezing and thatwing
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Crystallization and matrix formation - Freeze drying
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Crystallization and matrix formation - Oils and fats - crystallisation of triglycerides
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Crystallization and matrix formation - Exercises
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Crystallization and matrix formation - Questions
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Barrier technology - Introduction - Edible coatings and berries in food applications
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Barrier technology - Introduction - When to consider the use of edible coating?
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Barrier technology - Introduction - Activity coefficient data and models
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Barrier technology - Introduction - Sorption isotherms
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Barrier technology - Kinetics: diffusion
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Barrier technology - Prevention of defects in barrier films - Some solutions to avoid defects in coatings
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Preparation procedures - Ingredients - Biopolymers
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Preparation procedures - Ingredients - Lipids
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Preparation procedures - Ingredients - Emulsions and composites
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Preparation procedures - Ingredients - Additives
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Preparation procedures - Formation mechanisms - Melt-based formation mechanism
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Preparation procedures - Formation mechanisms - Solvent evaporation
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Barrier technology - Preparation procedures - Application methods
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Barrier technology - Mechanical behaviour
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Barrier technology - Wetting behaviour - Rough and porous surfaces
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Barrier technology - Migration of other components
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Barrier technology - Exercises
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Barrier technology - Questions
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Emulsions: Principles and preparation - Physical stability of emulsions - Common physical instability issues
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Emulsions: Principles and preparation - Physical stability of emulsions - Emulsifiers
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Emulsions: Principles and preparation - Physical characteristics of emulsions
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Emulsions: Principles and preparation - Making emulsions using flow fields - Equipment
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Emulsions: Principles and preparation - Making emulsions using flow fields - Laminar flow - Plain shear flow and extensional flow
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Emulsions: Principles and preparation - Making emulsions using flow fields - Turbulent flow
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Emulsions: Principles and preparation - Making emulsions using flow fields - Examples of industrial manufacturing of food emulsions
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Emulsions: Principles and preparation - Making emulsions using membranes and microchannels - Membrane emulsification
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Emulsions: Principles and preparation - Making emulsions using membranes and microchannels - Microfluidic techniques
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Emulsions: Principles and preparation - Making emulsions using physical destabilization - Phase inversion
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Emulsions: Principles and preparation - Exercises
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Emulsions: Principles and preparation - Questions
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Structuring of biopolymer products - The role of polymer chain structure and length in polymer properties
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Structuring of biopolymer products - Water binding in biopolymer mixtures
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Structuring of biopolymer products - Phase behaviour of polymer-solvent mixtures
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Structuring of biopolymer products - Rheological properties of (semi-solid) food products
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Structuring of biopolymer products - Processing of dense biopolymer systems - Extrusion
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Structuring of biopolymer products - Processing of dense biopolymer systems - Mixing
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Structuring of biopolymer products - Processing of dense biopolymer systems - Spinning
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Structuring of biopolymer products - Towards novel processing concepts - Balancing deformation and solidification
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Structuring of biopolymer products - Towards novel processing concepts - Creation of structures in (semi-)solid materials
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Structuring of biopolymer products - New trends in processing: Towards well-defined process conditions
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Structuring of biopolymer products - Questions
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Case study I (Structure formation in dough)
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Case study II (Protein extrusion: Meat and cheese analogues)
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Case study III (Ice cream)
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Case study V (Coatings and barriers in sweet snacks)
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Pratice exams - 2011 open questions
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Pratice exams - Closed questions
