Effect of Process Variables and Sodium Alginate on Extrusion Behavior of Nixtamalized Corn Grit

Singh, Jaspreet; Singh, Narpinder

doi:10.1081/jfp-120030041

Cited by 12 publications

(6 citation statements)

References 11 publications

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“…Figure 1b shown that apparent viscosity decreased with increase of XG level. Similar results were observed by Maitre et al (2017) and Singh and Singh (2004) when hydrocolloids added to feed during extrusion. Enhancement of water absorption with increase of XG level in extrusion of feed may have caused higher starch degradation and reduction of viscosity.…”

Section: Effects Of Extrusion Conditions On Rheological Propertiessupporting

confidence: 90%

Effects of extrusion parameters on physicochemical properties of third generation corn snacks expanded by microwave heating

Gümüşay

Şeker

2021

J. Food Process. Preserv.

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Corn grits were extruded then extrudates were expanded by microwave-heating.Effects of addition of xanthan gum (XG) (0%-1%), feed moisture content (37%-47%) and screw speed (100-300 rpm) level on physicochemical properties of snacks were evaluated with response surface methodology (RSM). All suspensions of expanded samples exhibited shear-thinning behavior. Apparent amylose content of samples ranged from 22.47% to 37.97%. Screw speed and feed moisture content had positive effect on apparent viscosity and amylose content but XG level had negative effect on them. Increasing screw speed increased expansion and luminosity but decreased browning index and total color difference. Increasing feed moisture content resulted in reduced expansion, luminosity but increased browning index. In contrast to the initial effect, expansion and browning index decreased when XG addition level was above 0.5%. Optimum conditions were determined to obtain the maximum values for expansion index and luminosity and minimum value for the total color difference by desirability function. They were found as 300-rpm screw speed, 47% feed moisture content and 0.34% XG level. How to cite this article: Gümüşay ÖA, Şeker M. Effects of extrusion parameters on physicochemical properties of third generation corn snacks expanded by microwave heating.

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Section: Effects Of Extrusion Conditions On Rheological Propertiessupporting

confidence: 90%

Effects of extrusion parameters on physicochemical properties of third generation corn snacks expanded by microwave heating

Gümüşay

Şeker

2021

J. Food Process. Preserv.

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“…This suggested the negative impact of pomace on the viscosity development of starch pastes. This can be attributed to the competing effects of the different components for water binding sites in an aqueous dispersion (Singh & Singh, ; Thomas & Atwell, ) and the shearing effects between the different components (Moraru & Kokini, ). Because the fiber is insoluble, it can cause a discontinuity in the aqueous starch and sugar dispersion, resulting in lower viscosities (Hernandez‐Diaz, Quintero‐Ramos, Barnard, & Balandran‐Quintana, ).…”

Section: Resultsmentioning

confidence: 99%

Fiber‐Rich Food Processing Byproducts Enhance the Expansion of Cornstarch Extrudates

Masli

Rasco

et al. 2018

Journal of Food Science

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“…However, TN involves the utilization of high amounts of water and long processing times, and in addition, a large volume of contaminated water effluent (nejayote) is produced . Another process that is used is nixtamalization by extrusion (NE), a high‐temperature/short‐time technology used to obtain semi‐terminated products, such as nixtamalized flours and directed expanded snacks or ready‐to‐eat snacks . The extrusion process combines the mixing, forming, texturizing, and cooking of raw materials into food products; these characteristics make this technology suitable for use in the production of snacks.…”

Section: Introductionmentioning

confidence: 99%

Effect of extrusion factors and particle size on starch properties of nixtamalized whole blue corn snacks

et al. 2016

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The aim of this study, was to evaluate the effect of extrusion conditions and particle size index on the starch properties of expanded nixtamalized snacks elaborated with whole blue corn. Whole grains were ground to achieve two different particle size indexes (PSI), 83.9 and 94.1, and were extruded at three feed moistures (14, 16.5, and 20.5%). The data suggested that the severity of milling and the extrusion process resulted in higher starch degradation, specifically in the snacks obtained with a feed moisture of 20.5%, which showed the higher values of starch damage. Nixtamalization by extrusion produced minimum amounts of resistant starch, mainly as retrograded starch and amylose-lipid complex, as demonstrated by thermal and structural analyses. Snacks produced with feed moisture of 16.5-20.5% and a PSI of 94.1 showed the highest values of resistant starch. The rheological properties of snacks with PSI of 83.9 indicated lower starch degradation and presented lower amounts of resistant starch than snacks with higher PSI. The feed moisture affected all the parameters evaluated in the snacks more than the PSI.

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Effect of Process Variables and Sodium Alginate on Extrusion Behavior of Nixtamalized Corn Grit

Cited by 12 publications

References 11 publications

Effects of extrusion parameters on physicochemical properties of third generation corn snacks expanded by microwave heating

Effects of extrusion parameters on physicochemical properties of third generation corn snacks expanded by microwave heating

Fiber‐Rich Food Processing Byproducts Enhance the Expansion of Cornstarch Extrudates

Effect of extrusion factors and particle size on starch properties of nixtamalized whole blue corn snacks

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