2012
DOI: 10.1111/j.1365-2621.2012.03186.x
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Physicochemical properties of extruded germinated wheat and barley as modified by CO2 injection and difference extrusion conditions

Abstract: Summary Germinated wheat and barley were extruded with a pilot‐scale corotating twin‐screw extruder under different barrel temperatures (100 and 120 °C), feed moisture content (30 and 35%) and CO2 injection. The effect of germination, barrel temperature, feed moisture content and CO2 injection on physical properties, proximate composition, γ‐aminobutyric acid, β‐glucan, phytic acid and protease activity was investigated. Results indicated that the barrel temperature, moisture content and CO2 injection signific… Show more

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Cited by 21 publications
(21 citation statements)
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“…This is because the ER is related to the molecular breakdown and molecular transformation. These factors influence the degree of melting, the viscosity of material, and the pressure drop with vaporization of water at the end of die (Ganjyal & Hanna, ; Singh, Sekhon, et al., ; Singkhornart et al., ). The lower moisture content could promote the degradation or deformation of starch, protein, and fiber, reconstructing the structure of materials with an improvement in the ER compared to higher moisture content since excess water as a lubricant may inhibit the degradation and deformation (Gu et al., ; Kowalski, Hause, Joyner, & Ganjyal, ; Singh, Sekhon, et al., ).…”
Section: Resultsmentioning
confidence: 99%
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“…This is because the ER is related to the molecular breakdown and molecular transformation. These factors influence the degree of melting, the viscosity of material, and the pressure drop with vaporization of water at the end of die (Ganjyal & Hanna, ; Singh, Sekhon, et al., ; Singkhornart et al., ). The lower moisture content could promote the degradation or deformation of starch, protein, and fiber, reconstructing the structure of materials with an improvement in the ER compared to higher moisture content since excess water as a lubricant may inhibit the degradation and deformation (Gu et al., ; Kowalski, Hause, Joyner, & Ganjyal, ; Singh, Sekhon, et al., ).…”
Section: Resultsmentioning
confidence: 99%
“…Extrusion processing is a continuous and rapid process that is commonly used in food industries for various applications, such as pastas, puffed snacks, breakfast cereals, texturized proteins, and others because of low cost and high efficiency (Aluwi et al, 2016;Singkhornart, Gu, & Ryu, 2013). Grains and seeds typically in their flour forms are utilized as a feed material are used in extrusion processing (Gu, Kowalski, & Ganjyal, 2017;Serge, Gu, Kim, & Ryu, 2011).…”
Section: Introductionmentioning
confidence: 99%
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“…Consequently, the use of sprouted grain to produce bread, pasta, breakfast cereals, biscuits, and porridge was studied and discussed (Richter, Christiansen, & Guo, 2014;Singkhornart, Gu, & Ryu, 2013). Consequently, the use of sprouted grain to produce bread, pasta, breakfast cereals, biscuits, and porridge was studied and discussed (Richter, Christiansen, & Guo, 2014;Singkhornart, Gu, & Ryu, 2013).…”
Section: Introductionmentioning
confidence: 99%
“…During the past years, many food products containing sprouted grains appeared on the market. Consequently, the use of sprouted grain to produce bread, pasta, breakfast cereals, biscuits, and porridge was studied and discussed (Richter, Christiansen, & Guo, 2014;Singkhornart, Gu, & Ryu, 2013). In order to achieve this desired incorporation in a controlled manner, it is important to understand how the raw material changes during the sprouting process.…”
Section: Introductionmentioning
confidence: 99%