Effect of blend moisture and extrusion temperature on physical properties of everlasting pea-wheat extrudates

Zarzycki, Piotr; Kasprzak, M.; Rzedzicki, Z.; Sobota, Aldona; Wirkijowska, Anna; Sykut-Domańska, Emilia

doi:10.1007/s13197-015-1754-y

Cited by 10 publications

(5 citation statements)

References 17 publications

(29 reference statements)

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“…So that the SME was increased significantly when blending PPP with WG ( P < 0.05). Particularly, it increased from 836.40 to 881.82 kJ kg −1 ( P < 0.05) when the ratio of WG increased from 20% to 60%, which might be due to the viscosity increased and screw wear brought by the WG (Zarzycki et al ., ). The increase in the viscosity also indicated that higher degree of aggregation might occur in the PPP‐WG mixtures, which could entrap more water due to the greater effective volume of the aggregates (Zhang et al ., ; Wang et al ., ).…”

Section: Resultsmentioning

confidence: 97%

Texturisation behaviour of peanut–soy bean/wheat protein mixtures during high moisture extrusion cooking

Zhang

Liu

Zhu

et al. 2018

Int J of Food Sci Tech

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Summary Ten groups of peanut protein powder (PPP)–soy protein isolate (SPI)/wheat gluten (WG) mixtures were prepared and extruded under the moisture content of 55%. Extrusion response parameters (specific mechanical energy (SME) and die temperature) during the extrusion were determined. Microstructure and textural properties of the extrudates were analysed. Results suggested that blending the PPP with SPI led to a lower SME and a higher die temperature during the extrusion, which led to a smoother and denser structure in the extrudates. While blending the PPP with WG resulted in a higher SME and a constant high die temperature during the extrusion, showing a rougher and looser structure in the extrudates. Compared with WG, SPI played a major role for the texturisation behaviour of PPP‐SPI‐WG mixtures during high moisture extrusion and for the extrudates. Both SPI and WG are required to improve the textural quality of texturised peanut protein.

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Section: Resultsmentioning

confidence: 97%

Texturisation behaviour of peanut–soy bean/wheat protein mixtures during high moisture extrusion cooking

Zhang

Liu

Zhu

et al. 2018

Int J of Food Sci Tech

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“…When making a comparison of the results of EI and density, it can be stated that achieving a very low density does not necessarily imply a maximum expansion, as observed in Figures 3A, 4A, where the highest level of increase was completed at the point hydrolyzed protein flour 30% and moisture content 16%. Density and EI were negatively correlated in any extrusion process, behavior related to the distribution of cells inside the extrudate, size, and thickness of the walls that they form makeup (Zarzycki et al, 2015).…”

Section: Densitymentioning

confidence: 96%

Extrusion parameters and physical transformations of an extrudate for fish: Effect of the addition of hydrolyzed protein flour from by-products of Oncorhynchus mykiss

Hoyos-Concha

Castillo

Roa-Acosta

et al. 2023

Front. Sustain. Food Syst.

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IntroductionThe food industries play a fundamental role in feeding for the functions of animal metabolism. Fish feed extrusion cooking includes process-independent factors such as temperature (°C), screw speed (RPM), throughput, feed, and moisture content that influence the final product's nutritional value and physical properties. The evidence suggests that the application of hydrolyzed protein flour (HPH) is a crucial step for the techno-functional properties of the product. Therefore, this work aimed to study the effect of hydrolyzed protein meal from silage of trout (Oncorhynchus mykiss) on the parameters of the extrusion system and their physical transformations.MethodsIn this study, the influence of hydrolyzed protein meals ranges between 10 and 30% as a substitute for fish meals. The physical properties of the extrudate were monitored, evaluating the hardness, durability, buoyancy, expansion index, and apparent density.ResultsConsistent with this, parameters such as feed composition, screw speed, moisture content, and extrusion process affected the composition and properties of the final product.DiscussionThe physical properties indicated that the hydrolyzed protein flour presented cohesiveness and decreased the mean retention time in the extruder barrel and the specific mechanical energy (SME). Hydrolyzed protein flour during the extrusion process produces pellets with high durability and low hardness due to the high porosity presented, which allows for obtaining nutritional characteristics in the extruded product.

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“…The effect of extruder feed moisture content on the breaking force of extrudates has been widely studied (Liu, Hsieh, Heymann, & Huff, ; Seth, Badwaik, & Ganapathy, ; Zarzycki et al., ). At a higher feed moisture content, the viscosity of the dough and mechanical energy in the extruder decreased, stopping the bubble growth at temperatures below the glass transition temperature (Kristiawan, Chaunier, Della Valle, Ndiaye, & Vergnes, ).…”

Section: Resultsmentioning

confidence: 99%

Extrusion of a Curcuminoid‐Enriched Oat Fiber‐Corn‐Based Snack Product

Sayanjali

Sanguansri

Buckow

et al. 2019

Journal of Food Science

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Extruded snack products were made from an oat fiber-corn flour matrix fortified with 1.5% (w/w) curcuminoids (750 mg curcuminoids/100 g) to improve the solubility and stability of curcuminoids. The effects of extruder feed moisture content (21%, 28%, and 35%) and screw speed (200 and 300 rpm) on the extrusion parameters and physical properties of final snacks were investigated. Curcuminoids lost during extrusion and curcuminoids loss during subsequent drying of extrudates were analyzed, to separate the losses occurring in each unit process. Drying post extrusion (at 50°C for 4 hr) was essential to obtain a crunchy shelf stable product (5% moisture). Curcuminoids loss during extrusion was from 17% to 84%, with high loss for the extrusion with low feed moisture content (21%). A further curcuminoids loss of 4% to 44% occurred during drying, with much higher loss for the extrudate with high moisture content. Total curcuminoids retained after extrusion and drying was 12% to 41% (59% to 88% loss), equivalent to 180 to 616 mg curcuminoids retained per 100 g snack, levels within recommended daily dose. Curcuminoids retained after drying was stable during 80 days of storage at 25°C. The results highlighted the importance of understanding the impact of each unit process separately (for example, extrusion and drying) on the stability of curcuminoids for the development of healthier extruded snacks.Practical Application: Extruded snacks products were developed by fortifying the snacks with oat fiber and curcuminoids in order to address the need for a healthy ready to eat food products. Some extrusion characteristics were selected to produce snack products which have favorable properties in terms of consumer acceptance.

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Effect of blend moisture and extrusion temperature on physical properties of everlasting pea-wheat extrudates

Cited by 10 publications

References 17 publications

Texturisation behaviour of peanut–soy bean/wheat protein mixtures during high moisture extrusion cooking

Texturisation behaviour of peanut–soy bean/wheat protein mixtures during high moisture extrusion cooking

Extrusion parameters and physical transformations of an extrudate for fish: Effect of the addition of hydrolyzed protein flour from by-products of Oncorhynchus mykiss

Extrusion of a Curcuminoid‐Enriched Oat Fiber‐Corn‐Based Snack Product

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