Development of innovative tigernut-based nutritional snack by extrusion process: effects of die temperature, screw speed, and formulation on physicochemical characteristics

Sagar Pandappa Kalahal, Mohsen Gavahian, Jenshinn Lin
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Abstract

Tigernut (TN) is an underutilized crop with nutritional value that has remained untapped in producing extruded products. This research aims to establish the favorable extrusion conditions that produce a TN-based nutritive extruded snack with improved physicochemical characteristics. A collet extruder was used in this comparison study to examine the effects of formulation (60% TN flour and 40% brown rice [BR] vs. 60% TN flour and 40% Japonica rice [JR]). The effects of extrusion conditions, such as die temperature (90°C, 100°C, and 110°C) and screw speed (250, 300, and 350 rpm), on the physicochemical characteristics of extrudates were studied. TN-BR extrudates produced at 110°C and 350 rpm had the following improved characteristics: protein (6.09–7.33%), ash (1.40–1.59%), crude fat (7.15–9.90%), crude fiber (2.51–3.92%), reduced hardness (2.35–3.37 N), springiness (2.30–2.64), chewiness (234.71–256.72 N), bulk density (1.17–2.57 g/cm3), expansion ratio (1.65–2.24), color (L*: 68.86–74.30), water absorption index (2.69–3.45 g/g), water solubility index (13.95–21.75%), and oil absorption capacity (23.65–25.64 g/g). Extrudates produced at lower temperatures (90°C and 100°C) and screw speed (250 and 300 rpm) exhibited lesser surface consistency than the extrudates produced at 110°C and 350 rpm. The antioxidant activity and the total phenolic content (40.91–49.63 mg gallic acid equivalent/100 g) were improved significantly. Similar improvements were observed in TN-JR extrudates; however, TN-BR extrudates had better nutritional value (higher protein: 7.33%, higher ash: 1.59%, and higher antioxidant activity). The results could help with economic success, food nutrition improvement, and food security by exploiting the underutilized TN crop for sustainable extruded snacks production.
利用挤压工艺开发创新型虎耳草营养零食:模具温度、螺杆速度和配方对理化特性的影响
虎耳草(Tigernut,TN)是一种营养价值未得到充分利用的作物,但在生产挤压产品方面仍未得到开发。本研究旨在确定有利的挤压条件,以生产出具有更好理化特性的基于坚果的营养挤压零食。在这项比较研究中,使用了一台夹头挤压机来检测配方(60% TN 粉和 40% 糙米 [BR] 与 60% TN 粉和 40% 粳米 [JR])的影响。研究了挤压条件,如模具温度(90°C、100°C 和 110°C)和螺杆转速(250、300 和 350 rpm)对挤压物理化特性的影响。在 110°C 和 350 rpm 下生产的 TN-BR 挤压物具有以下改进特性:蛋白质(6.09-7.33%)、灰分(1.40-1.59%)、粗脂肪(7.15-9.90%)、粗纤维(2.51-3.92%)、硬度降低(2.35-3.37 N)、回弹性(2.30-2.64)、咀嚼度(234.71-256.72 N)、体积密度(1.17-2.57 g/cm3)、膨胀率(1.65-2.24)、色泽(L*:68.86-74.30)、吸水指数(2.69-3.45 g/g)、水溶性指数(13.95-21.75%)和吸油量(23.65-25.64 g/g)。在较低温度(90°C 和 100°C)和螺杆转速(250 和 300 rpm)下生产的挤出物比在 110°C 和 350 rpm 下生产的挤出物表面稠度较低。抗氧化活性和总酚含量(40.91-49.63 毫克没食子酸当量/100 克)显著提高。TN-JR 挤压物也有类似的改善;不过,TN-BR 挤压物的营养价值更高(蛋白质含量更高:7.33%,灰分含量更高:1.59%,抗氧化活性更高)。通过利用未充分利用的 TN 作物进行可持续挤压零食生产,这些结果有助于取得经济成就、改善食物营养和食品安全。
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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