Low temperature wort flavour evaporation: A new dimension in evaporation efficiencies

Cerevisia Pub Date : 2011-04-01 DOI:10.1016/j.cervis.2011.02.002

Marcus Hertel, Michael Dillenburger

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Abstract

It is shown that the vapour liquid equilibrium of wort flavour components in wort and thus the efficiency of evaporation processes during the production of beer can be influenced by means of changing the evaporation temperature. Here, the enrichment of unwanted volatiles in the vapour is increasing with decreasing temperature. Thus, an evaporation in the cold parts of the brewery brings advantages concerning the needed over-all evaporation and thus the needed energy amount of the brewing process. In combination with a countercurrent guidance of wort and vapour during the evaporation process, a maximum evaporation efficiency can be reached. In order to prove the theory, test trials were performed in a 10 hl scale. In addition, a new procedure was researched, wherein wort is only heated up to moderate temperatures providing an onward evaporation in the cold part of a brewery. Here, additional savings can be reached. Using an evaporation of unwanted flavours in the cold parts of the brewery leads to enormous advantages for each brewery and thus for the whole brewing sector.

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低温麦汁风味蒸发:蒸发效率的新维度

结果表明，在啤酒生产过程中，通过改变蒸发温度可以影响麦汁风味成分的汽液平衡，从而影响麦汁蒸发过程的效率。在这里，不需要的挥发物在蒸气中的富集随着温度的降低而增加。因此，在啤酒厂的寒冷部分的蒸发带来了有关所需的整体蒸发和酿造过程所需的能量的优势。在蒸发过程中，结合麦汁和蒸汽的逆流引导，可以达到最大的蒸发效率。为了证明这一理论，在10毫升的规模上进行了试验试验。此外，研究了一种新的程序，其中麦汁只加热到适度的温度，在啤酒厂的冷部继续蒸发。在这里，可以达到额外的节省。在啤酒厂的冷区使用蒸发不需要的味道为每个啤酒厂带来了巨大的优势，从而为整个酿酒业带来了巨大的优势。

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