Recoverable resources from pot ale & spent wash from Scotch Whisky production

原材料 聚乳酸 碳足迹 制浆造纸工业 环境科学 琥珀酸 生产(经济) 废物管理 农业科学 化学 工程类 生物 温室气体 有机化学 聚合物 经济 宏观经济学 生态学
作者
Christine Edwards,Calum C. McNerney,Linda A. Lawton,Joseph Samuel Palmer,Kenneth Macgregor,Frances Jack,P.M. Cockburn,Amy Plummer,Alison Lovegrove,Abigail Wood
出处
期刊:Resources Conservation and Recycling [Elsevier BV]
卷期号:179: 106114-106114 被引量:16
标识
DOI:10.1016/j.resconrec.2021.106114
摘要

Scotch Whisky is an important global commodity which generates extensive co-product known as pot ale or spent wash (> 10 L co-product per L whisky). Whilst this is often used as fertiliser or animal feed, a proportion requires disposal resulting in cost to the distillery along with the negative impact on the carbon footprint due to transportation. This study examined the composition of the soluble fraction of pot ale from twenty-two distilleries in Scotland in order to assess the potential for resource recovery and transition to a more circular economy. The results reinforced previous studies, demonstrating that pot ale is an excellent source of protein with a potential for recovery >150, 000 t per annum in Scotland based on Whisky production data. Lactic acid, an important industrial platform chemical, was the major organic acid produced with concentrations ranging from 0.3 to 6.6 g L−1, representing a potential opportunity for recovery for applications such as manufacture of biodegradable polylactic acid for plastics (> 15,000 t per annum based on mean values). Other important platform chemicals, succinic acid and lysine were also identified and considered in sufficient amounts for future use. Pot ale was also shown to contain significant amounts of critical raw materials, magnesium and phosphate, which could be reclaimed for use in fertiliser/feed supporting the development of a new circular economy whilst at the same time reducing the burden of mining and transportation on the environment. The data in this study demonstrated a potential 13.8 kt recoverable phosphate per annum representing more than half of the annual fertiliser consumption in Scotland. Whisky co-products can contribute to sustainable energy, food and platform chemicals with the added value that metal concentrations are not sufficiently high to prevent its utilisation.
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