Quality Evaluation of Maize Chips (Kokoro) Fortified with Cowpea Flour

Abegunde T.A., Bolaji O.T., Adeyemo T.B.
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引用次数: 18

Abstract

Quality evaluation of “kokoro” fortified with cowpea flour (0, 10, 20, 30, and 40 %) was studied. The blends were reconstituted into a thick paste, manually moulded into kokoro stick and deep fried in hot vegetable oil at about 170°C for 5 minutes. These flour blends were analyzed for pasting, proximate and functional properties. The result showed that there was significant difference (p < 0.05) in the proximate composition in all the bends. The protein content ranged from 15.20 – 23.03% while ash content was between 1.29 – 1.90%, which increased with increase in cowpea flour. The carbohydrate, fat and fiber contents decreased with values ranging from 59.17 – 65.00%, 3.24 – 4.40% and 2.23 – 2.96%, respectively. The pasting characteristics of the maize cowpea blends gave a peak viscosity ranging from 510 – 702 cp. There was no significant difference (p > 0.05) in the pasting time and temperature. The functional properties reflected that water absorption, oil absorption and foaming capacity significantly increased with increase in cowpea flour with their values ranging from 186.67 – 210.00 g/100 g, 163.33 – 195.00 g/mg and 30.73 – 39.27% respectively. Bulk density also followed the same trend. Sample CAF (100% maize) reflected the highest dispersibility value (6.63%). No significant difference (p > 0.05) was observed in the swelling capacity and least gelatinization concentration. Although the sensory result indicated that increase in cowpea flour does not show a significant difference (p > 0.05) in the sensory parameters, the overall acceptability of the samples was highly rated.

豇豆粉强化玉米片的质量评价
研究了添加0%、10%、20%、30%和40%豇豆粉的“kokoro”的质量评价。将混合物重新配制成粘稠的糊状,手工模压成kokoro棒,在170°C的热植物油中油炸5分钟。对这些混合面粉的糊化性能、近似性能和功能性能进行了分析。结果显示,两组间存在显著性差异(p <0.05)在所有弯曲的近似成分中。蛋白质含量为15.20 ~ 23.03%,灰分含量为1.29 ~ 1.90%,随豆粉添加量的增加而增加。碳水化合物、脂肪和纤维含量分别降低59.17 ~ 65.00%、3.24 ~ 4.40%和2.23 ~ 2.96%。糊化特性表明,玉米豇豆混合物的峰值粘度在510 ~ 702 cp之间,两者之间无显著差异(p >0.05)糊化时间和温度。豆粉的吸水率、吸油率和起泡率随豆粉添加量的增加而显著提高,分别为186.67 ~ 210.00 g/100 g、163.33 ~ 195.00 g/mg和30.73 ~ 39.27%。堆积密度也有相同的趋势。样品CAF(100%玉米)的分散性值最高,为6.63%。差异无统计学意义(p >溶胀量和最小糊化浓度均为0.05)。虽然感官结果表明,豇豆粉的添加量没有表现出显著差异(p >0.05),样品的总体可接受度较高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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