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Abstract
The increasing consumer demand for low fat foods has resulted in a need to replace fat in whipped products with natural, readily available food ingredients. Agar fluid gels with the ability to stabilise foams are therefore presented. Gelled particles can be used to mimic fat droplets and also stabilise foams through localised jamming of the interstitial fluid in foam channels, which considerably slows drainage. Innovative processing has developed fluid gels for the functionality of aeration that has built upon this understanding. Novel particle shapes were manufactured, which enhanced particle interaction and ultimately improved their functionality when aerated. The properties of agar gelled particles were controlled by altering agar concentration. Foam stability at each concentration was assessed in terms of half-life measurements. While most exhibited a half-life of around 24 h, there was a dramatic increase at 3 wt% agar, which displayed a half-life of six days. A critical yield stress of the suspending fluid at 3 wt% had therefore been reached, which resulted in enhanced foam stability to drainage. Interestingly, the increased yield stress was attributed to increased particle elasticity at 3 wt% agar. Stability was provided through the fluid gel acting as a network of particles with a finite yield stress. Particles impeded the liquid flow in the foam, which resulted in the formation of localised plugs where particles were confined to foam channels. Examining the internal microstructure of this novel, exceedingly stable foam using X-ray tomography supported this mechanism.
Original language | English |
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Pages (from-to) | 222-228 |
Number of pages | 7 |
Journal | Food Hydrocolloids |
Volume | 73 |
Early online date | 4 Jul 2017 |
DOIs | |
Publication status | Published - 1 Dec 2017 |
Keywords
- Agar
- Fluid gels
- Foams
- Microgels
- Particle stabilisation
- Rheology
ASJC Scopus subject areas
- Food Science
- Chemistry(all)
- Chemical Engineering(all)
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Dive into the research topics of 'Stabilisation of foams by agar gel particles'. Together they form a unique fingerprint.Projects
- 1 Finished
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Nottingham lead - EPSRC Centre for Innovative Food Manufacturing (CIM)
Engineering & Physical Science Research Council
1/12/13 → 28/02/19
Project: Research Councils