Department of Food Science and Technology, Oregon State University, Corvallis, Oregon, 97331, USA.
Food Innovation Center, Oregon State University, Portland, Oregon, 97209, USA.
J Food Sci. 2020 Nov;85(11):3943-3953. doi: 10.1111/1750-3841.15483. Epub 2020 Oct 10.
Brewers' spent grain (BSG) is the major byproduct of brewing beer, rich in protein and dietary fiber. This study investigated the effect of two drying methods (impingement and hot-air drying) on chemical composition, physicochemical properties, and bioactive compounds of BSGs from three different brewers (BSG1, BSG2, and BSG3), and then evaluated the quality and consumer acceptance of BSG flour fortified muffins. Results showed that impingement drying led to significantly lower moisture content (MC, 1.33-1.87 g/100g) and water activity (a , 0.04-0.07) of BSGs than hot-air drying (5.44 to 5.57 g/100 g and 0.19 to 0.20, respectively). Among different dried BSGs, impingement dried BSG3 achieved the highest protein (18.03 g/100 g dry matter [DM]), total phenolic content (TPC, 2.21 mg GAE/g DM), radical scavenging activity (RSA, 1.58 mg AAE/g DM), and total flavonoid content (TFC, 0.68 mg QE/g DM), and retained lighter color (L*, 54.68) and higher total dietary fiber (TDF, 42.40 g/100 g DM), which was selected for making BSG-fortified muffins. BSG3 was substituted 1:1 as white: whole wheat flour at three concentrations (10, 15, and 20 g/100 g flour mix) for muffins (BSG10, BSG15, and BSG20, respectively). BSG15 provided higher protein (13.11 g/100 g DM), TDF (16.88 g/100 g DM), and higher bioactive compounds compared to control and retained brighter color of muffin compared to BSG20, showing no difference in firmness and overall liking compared to the control muffin. This study demonstrated that impingement dried BSG could be utilized as a functional ingredient in muffins to add value to the food chain providing nutritional and environmental benefits. PRACTICAL APPLICATION: This study reported the benefit of impingement drying method for the retention of physicochemical quality and bioactive compounds of brewer's spent grains (BSG) produced from three different brewers in comparison with hot-air drying. The study also reported that muffins fortified with BSG flours (15% replacement of wheat flour) yielded a 23% increase in total dietary fiber and 13% increase in protein without affecting consumer acceptance of the products. This information is essential for developing value-added applications of BSG, a byproduct from brewing industry, as a functional ingredient to make nutritive baking goods, such as muffins, for promoting human health.
啤酒糟(BSG)是酿造啤酒的主要副产物,富含蛋白质和膳食纤维。本研究考察了两种干燥方法(冲击和热空气干燥)对来自三种不同酿酒商(BSG1、BSG2 和 BSG3)的 BSG 的化学组成、物理化学性质和生物活性化合物的影响,然后评估了 BSG 粉强化松饼的质量和消费者接受度。结果表明,与热空气干燥(分别为 5.44 至 5.57 g/100 g 和 0.19 至 0.20)相比,冲击干燥导致 BSG 的水分含量(MC,1.33-1.87 g/100g)和水分活度(a ,0.04-0.07)显著降低。在不同干燥的 BSG 中,冲击干燥的 BSG3 实现了最高的蛋白质(18.03 g/100 g 干物质[DM])、总酚含量(TPC,2.21 mg GAE/g DM)、自由基清除活性(RSA,1.58 mg AAE/g DM)和总类黄酮含量(TFC,0.68 mg QE/g DM),并保留了较浅的颜色(L*,54.68)和更高的总膳食纤维(TDF,42.40 g/100 g DM),因此被选择用于制作 BSG 强化松饼。BSG3 以 1:1 的比例替代白面粉:全麦面粉,浓度分别为 10、15 和 20 g/100 g 面粉混合物(分别为 BSG10、BSG15 和 BSG20)。BSG15 提供的蛋白质(13.11 g/100 g DM)、TDF(16.88 g/100 g DM)和生物活性化合物均高于对照,与 BSG20 相比保留了松饼更亮的颜色,与对照松饼相比,其硬度和整体喜好没有差异。本研究表明,冲击干燥法可用于松饼中作为功能性成分,为食物链增值,提供营养和环境效益。
本研究报告了与热空气干燥相比,冲击干燥方法对来自三个不同酿酒商的啤酒糟(BSG)理化质量和生物活性化合物的保留效果。研究还表明,用 BSG 粉(替代 15%的小麦粉)强化的松饼总膳食纤维增加了 23%,蛋白质增加了 13%,而不影响产品的消费者接受度。这些信息对于开发啤酒糟(啤酒酿造工业的副产品)的增值应用至关重要,啤酒糟可以作为一种功能性成分,用于制作营养烘焙食品,如松饼,以促进人类健康。
