Value-Added Application of Bourbon Spent Grain and Proso Millet for High-Fiber Extruded Product

IF 1.2 4区 农林科学 Q3 AGRICULTURAL ENGINEERING Journal of the ASABE Pub Date : 2023-01-01 DOI:10.13031/ja.15507
Joseph Woomer, R. Schendel, Jennifer Lovely, P. Vijayakumar, A. Adedeji
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Abstract

Highlights Distillers spent grain (DSG) constitutes a major disposal problem for the bourbon industry. The impact of DSG particle size and addition level on the quality attributes of extruded products was evaluated. Particle size and addition level modulated the extrusion of DSG-proso millet-based extrudate. Some quality of extrudates with up to 10% DSG addition level and 300 µm particle size compared favorably with the control. Abstract. Bourbon is an important export for the US, especially in the state of Kentucky, which accounts for 95% of global production. The disposal of the main byproduct of bourbon distilling is a major problem for the industry. Distiller’s spent grain (DSG) produced contains insoluble and soluble fibers and protein, making it an attractive option as a health-promoting functional ingredient in food production. The objective of this research was to determine the DSG properties needed for the development of high-fiber extruded products with millet as the base-starch ingredient. Samples were produced using a co-rotating twin-screw extruder. A two-way factorial design was used to test the effect of DSG particle size (180, 300, and 500 µm) and addition levels (5%, 10%, and 15%) on some physico-functional properties of the extrudates, such as specific mechanical energy, water solubility index, water absorption index, radial expansion ratio, fracturability, hardness, porosity, degree of gelatinization, and pasting properties. In general, higher DSG addition levels resulted in decreased radial expansion and porosity, and created harder, bulkier, and darker color products. However, samples produced with medium particle size DSG (300 µm) at 5% addition level saw no significant decrease in expansion or hardness compared to the control (0% DSG). Similarly, at 10% DSG addition level and coarse (500 µm) particle size, there was no significant difference in porosity compared to the control group. This study shows that optimized particle size and DSG addition level allow the incorporation of bourbon spent grain into an extruded-expanded product without significant loss of attributes but with higher dietary fiber content. Keywords: Bourbon, Distillers Spent Grain, Extrusion, High-fiber, Proso Millet.
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波旁谷和普罗索谷子在高纤维挤压制品中的增值应用
蒸馏器的废谷物(DSG)构成了波旁威士忌工业的主要处理问题。评价了DSG粒度和添加量对挤出产品质量属性的影响。颗粒大小和添加量对DSG-proso颗粒基挤出物的挤出有调节作用。高达10%的DSG添加水平和300µm粒度的挤出物的一些质量与对照组相比有利。摘要波旁威士忌是美国的重要出口产品,尤其是在肯塔基州,占全球产量的95%。波旁威士忌蒸馏的主要副产品的处理是该行业的一个主要问题。生产的酒糟(DSG)含有不溶性和可溶性纤维和蛋白质,使其成为食品生产中促进健康的功能性成分的有吸引力的选择。本研究的目的是确定开发以小米为基础淀粉成分的高纤维挤压产品所需的DSG特性。样品是用同向旋转双螺杆挤出机生产的。采用双向因子设计测试了DSG粒径(180、300和500µm)和添加量(5%、10%和15%)对挤出物某些物理功能性能的影响,如比机械能、水溶性指数、吸水指数、径向膨胀比、可裂性、硬度、孔隙率、糊化程度和糊化性能。一般来说,较高的DSG添加水平导致径向膨胀和孔隙率降低,并产生更硬,体积更大,颜色更深的产品。然而,在5%的添加水平下,中等粒径DSG(300µm)的样品与对照组(0% DSG)相比,膨胀率或硬度没有显著降低。同样,在10%的DSG添加水平和粗粒度(500µm)下,与对照组相比,孔隙率没有显著差异。本研究表明,优化后的颗粒尺寸和DSG添加量可以使波旁谷废粒在挤压膨化产品中没有明显的性状损失,但膳食纤维含量较高。关键词:波旁威士忌,酒糟,挤压,高纤维,普罗索谷子
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