emulsi pada produk susu
DESCRIPTION
Emulsi Pada Produk Susu. Chocolate milk and infant formulae. Complete nutritional formula. Kasein Misel. Mengapa susu segar berwarna putih ?. Jawab : Susu tersusun dari berbagai nutrien yang terlarut dalam air atau terdispersi sebagai koloid - PowerPoint PPT PresentationTRANSCRIPT
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Emulsi Pada Produk Susu
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Chocolate milk and infant formulae
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Complete nutritional formula
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Kasein Misel
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Mengapa susu segar berwarna putih ?
Jawab : • Susu tersusun dari berbagai nutrien yang terlarut
dalam air atau terdispersi sebagai koloid
• Susu segar bukan hanya merupakan larutan dan dispersi koloid, namun juga merupakan emulsi
• Warna putih pada susu segar disebabkan oleh koloid dan emulsi komponen susu (lemak dan protein) dalam fase air.
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Mengapa susu segar berwarna putih ?
1. Protein susu - casein micelles
2. Bentuk, ukuran dan kenampakan misel kasein memberikan warna putih pada susu
3. Perbesaran 37,500x (garis: 1.2 µm).
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Koagulasi Susu Segar
The coagulation of milk by chymosin includes two separate steps: proteolysis and aggregation
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Aggregation behavior of emulsifier molecules(a) Head group larger than the tail: micelle formation in water(b) Cylinder-shaped molecule: formation of parallel bilayers(c) Head group smaller than the tail: formation of inverted micelles, enclosing water.
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A schematic drawing of a lamellar phase. The emulsifier molecules are arranged in parallel sheets in such way that the hydrophilic head groups of the molecules are in contact with water and that the hydrophobic chains are in contact with each other
and excluded from water.
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Misel Kasein
Caseins exist in large spherical collodial micells with calcium phosphate. These micelles comprises 93% (w/w) caseins and range in size from 500 to 3000 A in diameter. The calcium and phosphate play a very important role in maintaining the integrity of the casein mucelles, and are commonly referred to as colloid calcium phosphate.
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Emulsion formation, structure and stability
• During homogenisation, fat globules with sub-micron size are formed
• Milk proteins migrate to the newly formed fat globule surfaces
• Capability to form a stable emulsion is determined by the ability of the protein to unfold at the fat-water interface
• Protein load affects the stability of emulsion towards heating and storage
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Fat globules in recombined milk
Natural milk
10 mm
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Fat globules in recombined milk
Natural milkRecombined
(homogenized milk)
10 mm 10 mm
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Fat Globule Stabilization by Milk Proteins
Protein at fat/aqueous interface
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Emulsion destabilisation in recombined milk
• Thermodynamically unstable
• Mechanisms of destabilisation: aggregation, flocculation, coalescence and creaming
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Flocculation and coalescence
Aqueous phase
Whey proteins
Oil droplet
Casein micelle
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Flocculation and coalescence
Aqueous phase
Flocculation
Whey proteins
Oil droplet
Casein micelle
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Flocculation and coalescence
Aqueous phase
Flocculation Coalescence
Whey proteins
Oil droplet
Casein micelle
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Consequences of coalescence
Coalescence leads to an increase in the rate of separation
Oil
Water
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Particle size distribution – A stable recombined milk
0
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Freq
uen
cy (
%)
0.01 0.1 1 10 100
Particle size (um)
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4
8
12
16
20
Vo
lum
e f
req
ue
nc
y (
%)
0.01 0.1 1 10 100
Particle size (µm)
Particle size distribution – unstablerecombined milks
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