Effect of Varying Drying Temperature on the Soluble Sugar and Nutritional Content of Banana

E. Alagbe, Y. S. Amlabu, E. O. Daniel, M. Ojewumi
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引用次数: 3

Abstract

In this work, the effect of drying temperature on the available carbohydrate is investigated. Nigerian climate favours the cultivation of banana and it is a ready fruit delight in almost all homes. Hybrids and polypoids of the species musa acuminata and musa balbisiana are very common. Unfortunately, post-harvest losses of 40 – 60%, of this energy rich fruit are encountered yearly. Drying is an age long method of preservation which has stood the test of time. Bananas are known to possess high carbohydrates with low glycaemic index which makes it a healthy fruit or snack. To determine the optimum drying temperature for the drying of Banana fruit. The banana fruit was peeled and sliced to about 5 mm thick and dried in a tray dryer at varying temperatures of 40 °C, 50 °C, 60 °C and 70 °C. The control sample was air dried at the average prevailing temperature of 30 °C. Results obtained showed that increased drying temperature favoured more loss of moisture from the samples and in turn, favoured an increase in the available carbohydrate in the dried fruit. The ash, fat and crude fibre content marginally changed with drying temperature. The optimum temperature for treated and untreated samples, from the results obtained, were 60 °C and 70 °C respectively. Drying impacts positively on the available sugar in the Banana fruit.
不同干燥温度对香蕉可溶性糖及营养成分的影响
本文研究了干燥温度对有效碳水化合物的影响。尼日利亚的气候有利于香蕉的种植,它是几乎所有家庭的现成水果。尖musa acuminata和musa balbisiana的杂交和息肉是非常常见的。不幸的是,这种富含能量的水果在收获后损失了40% - 60%。干燥是一种经得起时间考验的长期保存方法。众所周知,香蕉含有高碳水化合物和低血糖指数,这使它成为一种健康的水果或零食。目的:确定香蕉果实干燥的最佳干燥温度。香蕉果实去皮切片至5mm厚左右,在40℃、50℃、60℃、70℃的不同温度下,在托盘式干燥机中干燥。对照样品在平均盛行温度30℃下风干。结果表明,提高干燥温度有利于样品水分的更多损失,反过来,有利于干果中有效碳水化合物的增加。灰分、脂肪和粗纤维含量随干燥温度变化不大。结果表明,处理后样品和未处理样品的最佳温度分别为60℃和70℃。干燥对香蕉果实中的有效糖有积极的影响。
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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