Some Quality Attributes of Composite Flour and Bread Produced from Wheat and African Walnut

S. Arinola, O. Ogunlade, D. M. Fakomiti
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Abstract

This study explored the potential of African walnut in the formulation of composite flour which can be used for bread production and in various food applications. African walnut flour was produced and used to substitute wheat flour at different levels (5 - 25%) in the production of wheat-African walnut composite flour. Functional and pasting properties of the composite flour were evaluated using standard procedures. Proximate composition, antioxidant activity, some loaf quality attributes and sensory acceptability of bread produced from the composite flour were evaluated using standard procedures. Wheat bread served as control. The composite flour showed varying functional properties which ranged from 2.43 to 3.46 (swelling capacity), 1.15 to 1.85 mL/g (water absorption capacity), 2.15 to 2.75 mL/g (oil absorption capacity), 10.80 to16.60% (foam capacity), 63.0 to 75.0% (dispersibility), 38.92 to 69.92 seconds (wetability), 0.75 to 0.79 g/mL (packed bulk density) and 0.43 to 0.47 g/mL (loose bulk density). Inclusion of African walnut reduced peak viscosity (53.92 – 148.83 RVU), trough viscosity (52.25 – 88.58 RVU), breakdown viscosity (1.67 – 60.25 RVU), final viscosity (74.08 – 191.25 RVU) and setback viscosity (21.83 – 102.67 RVU) of the composite flour. Composite bread had better protein (9.75 – 16.93%), fat (3.42 – 9.94%), ash (1.46 – 2.75%), crude fibre (0.86 – 3.64%) but reduced specific loaf volume (2.36 – 4.18 cm3/g) and loaf height (3.00 – 5.40cm) than the control, and exhibited appreciable antioxidant activity (DPPH: 31.60 – 73.09% and FRAP: 0.51 - 4.25 mg/g). In term of sensory acceptability composite bread samples produced with 5 and 10 % levels of African walnut compared favourably with bread produced from wheat flour. Thus composite flour produced from wheat and African walnut flours showed an array of physicochemical properties which could make it useful in different food applications. Acceptable bread could be produced from wheat flour substituted with African walnut flour at 10% level.
小麦和非洲核桃复合面粉和面包的一些品质特征
本研究探索了非洲核桃在复合面粉配方中的潜力,复合面粉可用于面包生产和各种食品应用。生产了非洲核桃粉,并在小麦-非洲核桃复合粉的生产中用于替代不同水平(5 - 25%)的小麦粉。采用标准程序对复合面粉的功能性能和糊化性能进行了评价。采用标准程序对复合面粉生产的面包的近似成分、抗氧化活性、部分面包品质属性和感官可接受性进行了评价。小麦面包作为对照。复合面粉的功能性能为2.43 ~ 3.46(溶胀量)、1.15 ~ 1.85 mL/g(吸水量)、2.15 ~ 2.75 mL/g(吸油量)、10.80 ~ 16.60%(泡沫量)、63.0 ~ 75.0%(分散性)、38.92 ~ 69.92秒(润湿性)、0.75 ~ 0.79 g/mL(堆积容重)和0.43 ~ 0.47 g/mL(松散容重)。非洲核桃的加入降低了复合面粉的峰值粘度(53.92 ~ 148.83 RVU)、低谷粘度(52.25 ~ 88.58 RVU)、破碎粘度(1.67 ~ 60.25 RVU)、最终粘度(74.08 ~ 191.25 RVU)和挫折粘度(21.83 ~ 102.67 RVU)。复合面包的蛋白质含量(9.75 ~ 16.93%)、脂肪含量(3.42 ~ 9.94%)、灰分含量(1.46 ~ 2.75%)、粗纤维含量(0.86 ~ 3.64%)均高于对照,但比面包体积(2.36 ~ 4.18 cm3/g)和面包高度(3.00 ~ 5.40cm)均低于对照,且具有较好的抗氧化活性(DPPH: 31.60 ~ 73.09%, FRAP: 0.51 ~ 4.25 mg/g)。在感官接受度方面,与用小麦粉生产的面包相比,用5%和10%的非洲核桃生产的复合面包样品更有优势。因此,由小麦和非洲核桃粉制成的复合面粉显示出一系列的物理化学特性,可以使其在不同的食品应用中发挥作用。以10%的非洲核桃粉替代小麦粉可生产出合格的面包。
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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