Physical, Chemical and Functional Properties of Flakes from Coconut Flour

A. Tanimola, Atinuke Adekunle-Aremu, Oluwatomilola Bolaji, F. Oludemi, Kudirat Ibrahim
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Abstract

Coconut flour is the pulverized residue obtained after the extraction of milk from coconut copra, regarded as coconut waste. The objective of this study was to find a use for this underutilized industrial waste by producing flakes from coconut flour using different binding agents and to evaluate their physical, functional and chemical properties. Coconut flour was produced from coconut copra, followed by processing of six batches of coconut flakes with different binders (xanthan gum, guar gum, ofor seed gum, achi seed gum and cassava starch) and a control sample with no binding agent. The proximate composition, mineral content, caprylic acid, colour and functional properties of the coconut flake samples were evaluated using standard methods. The crude protein, ash, crude fat, crude fibre and moisture content of the coconut flakes ranged from 8.46-10.21%, 1.01-1.40%, 0.94-0.99%, 2.55-2.82% and 1.89-2.45% respectively. The binding agents had a significant effect in retaining the aroma compound (caprylic acid) of the coconut flakes (1.48 - 2.45%), compared with the sample without a binding agent (1.37%). The calcium, iron, magnesium and sodium content in coconut flake samples ranged from 2.71 to 4.52 mg/100g, 1.57 to 2.06 mg/100g, 9.58 to 10.53 mg/100 g and 502 – 943 mg/kg respectively. The binding agents had no significant effect on the bulk density (0.13 to 0.15 g/cm3), but significantly increased the water absorption capacity of the coconut flakes from 78.23% to 126 – 164%. The L*, a* and b*colour parameters of the coconut flakes ranged from 72.41 to 93.38; -0.12 to +4.89 and 10.04 to 21.95 and the colour difference (delta Chroma), colour intensity and hue angle varied from 1.90 to 12.07, 6.75 to 24.17 and 77.13-91.44 respectively. This study showed that coconut flakes, a nutritious and less dense meal can be produced from coconut flour with or without a binding agent, which could serve as a breakfast meal or snack.
椰子粉薄片的物理、化学和功能特性
椰粉是从椰干中提取奶后得到的粉末状残渣,称为椰子废料。本研究的目的是通过使用不同的粘合剂从椰子粉中生产薄片,并评估其物理、功能和化学特性,找到未充分利用的工业废物的用途。以椰子干为原料生产椰子粉,然后用不同的粘合剂(黄原胶、瓜尔胶、瓜尔籽胶、阿奇籽胶和木薯淀粉)加工6批椰子片,并用无粘合剂的对照样品进行加工。采用标准方法对椰子片样品的近似组成、矿物含量、辛酸、颜色和功能特性进行了评价。椰子片的粗蛋白质、粗灰分、粗脂肪、粗纤维和水分含量分别为8.46 ~ 10.21%、1.01 ~ 1.40%、0.94 ~ 0.99%、2.55 ~ 2.82%和1.89 ~ 2.45%。与未添加结合力的椰片(1.37%)相比,添加结合力对椰片香气化合物(辛酸)的保留效果显著(1.48 ~ 2.45%)。椰子片样品中钙、铁、镁和钠的含量分别为2.71 ~ 4.52 mg/100g、1.57 ~ 2.06 mg/100g、9.58 ~ 10.53 mg/100g和502 ~ 943 mg/kg。黏合剂对椰子片的容重(0.13 ~ 0.15 g/cm3)无显著影响,但显著提高了椰子片的吸水率,吸水率由78.23%提高到126 ~ 164%。椰子片的L*、a*和b*颜色参数范围为72.41 ~ 93.38;-0.12 ~ +4.89和10.04 ~ 21.95,色差(δ Chroma)、色强和色相角分别在1.90 ~ 12.07、6.75 ~ 24.17和77.13 ~ 91.44之间变化。这项研究表明,椰子片,一种营养丰富且密度较低的食物,可以用椰子粉制成,有或没有粘合剂,可以作为早餐或零食。
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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审稿时长
12 weeks
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