Formation of staling aldehydes in different grain bed layers in an industrial scale maltings

IF 2.4 3区农林科学 Q3 FOOD SCIENCE & TECHNOLOGY

Journal of The Institute of Brewing Pub Date : 2023-12-13 DOI:10.58430/jib.v129i4.34

W. Filipowska, Irina Bolat, G. De Rouck, J. Bauwens, David Cook, L. De Cooman

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Abstract

Understanding the contribution of raw materials to the quality of the final product is crucial for the food industry. In the brewing process, malt delivers various compounds that compromise the flavour stability of beer, including staling aldehydes and their precursors. The primary aim of this study was to investigate the evolution of staling aldehydes and their cysteinylated counterparts throughout industrial scale pale malt production. The second objective was to study the extent to which process related gradients (e.g., temperature, moisture) may contribute to the differential formation of free and bound state aldehydes. Samples were collected from two industrial scale, pale lager malt production processes as a function of process time (germination, kilning, and cooling) and the position of the kernals in the grain bed (bottom, middle and top layers) during kilning. The levels of free and cysteinylated aldehydes were determined. The results show that the initial stage of germination is accompanied by enzymatic fatty acid oxidation as reflected by the formation of hexanal and trans-2-nonenal. Drying at elevated temperature (at a critical moisture content of 6-9%) results in the intensified formation of cysteinylated Strecker aldehydes and furfural. Moreover, a rapid increase in the formation of (cysteinylated) Strecker aldehydes furfural and trans-2-nonenal continued through kilning. A clear effect of temperature and moisture gradients was observed on the formation of aldehydes and it is concluded that exposure to heat load plays a critical role in the development of cysteinylated aldehydes during malt production. This publication is dedicated to the memory of Professor Luc De Cooman.

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在工业规模的麦芽厂中不同谷物床层中形成的陈化醛

了解原材料对最终产品质量的影响对食品工业至关重要。在啤酒酿造过程中，麦芽会释放出各种影响啤酒风味稳定性的化合物，其中就包括醛缩醛及其前体。本研究的主要目的是调查在整个工业规模的淡色麦芽生产过程中变味醛类及其半胱氨酰化对应物的演变情况。第二个目的是研究与工艺相关的梯度（如温度、湿度）在多大程度上会促成游离态和结合态醛的不同形成。从两个工业规模的淡色拉格麦芽生产工艺中收集了样本，作为工艺时间（发芽、焙烧和冷却）和焙烧过程中谷粒在谷物床中位置（底层、中层和顶层）的函数。测定了游离醛和胱氨酰化醛的含量。结果表明，发芽初期伴随着酶促脂肪酸氧化，这反映在己醛和反式-2-壬烯醛的形成上。在高温下干燥（临界含水量为 6-9%）会导致胱氨酰化 Strecker 醛和糠醛的形成加剧。此外，（半胱氨酸化）Strecker 醛类糠醛和反式-2-壬烯醛的形成在焙烧过程中继续快速增加。温度和湿度梯度对醛类的形成有明显的影响，因此得出结论：在麦芽生产过程中，热负荷对胱氨酰化醛类的形成起着至关重要的作用。

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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来源期刊

Journal of The Institute of Brewing 工程技术-食品科技

CiteScore

6.20

自引率

7.70%

发文量

审稿时长

6 months

期刊介绍： The Journal has been publishing original research for over 125 years relating to brewing, fermentation, distilling, raw materials and by-products. Research ranges from the fundamental to applied and is from universities, research institutes and industry laboratories worldwide. The scope of the Journal is cereal based beers, wines and spirits. Manuscripts on cider may also be submitted as they have been since 1911. Manuscripts on fruit based wines and spirits are not within the scope of the Journal of the Institute of Brewing.