Views: 3 Author: Site Editor Publish Time: 2022-05-11 Origin: Site
Paul Hughes, Assistant Professor of Distilling, Oregon State University gives us an excellent insight into the diffusion and diversity of spirits…
The inception of alcoholic drinks was invariably driven by the availability of local raw materials that could be effectively converted into fermentable substrate. In this way, wine therefore developed in regions where grapes were plentiful – particularly around the Mediterranean Sea – whilst beer made from barley was relatively widespread, being brewed both in Northern Europe and in sunnier climes, reflecting the broad range of climates in which barley can thrive. Fast-forward from the edges of prehistory and, with the increasing movement of agricultural commodities and final products globally, we can see examples of previously regional spirits (e.g. brandies, whiskies) being produced in non-traditional locations. Indeed to protect these various spirit categories, Scotch whisky, French brandies and tequila, in particular, are clearly defined in terms of their production, with regulations also clearly identifying restrictions as to the locations where such products can be made.
The production of distilled spirit-based drinks can be broken down into three broad operations: the preparation of a fermented extract; distillation; and downstream elaboration. Nevertheless, the diversity of raw materials used and the desired characteristics of the final products mean that there are many process variations across the distilled spirits sector. Here we review the global diversity of distilled spirits and compare and contrast methods of production.
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In principle any raw material of agricultural origin that yields a source of fermentable sugars can be fermented and then distilled into a final spirit. This is broadly equivalent to the sugar/carbohydrate-bearing foods that have been consumed for millennia by populations across the globe. The raw materials used can be classified according to the complexity of the sugars contained. This is useful as most fermentation organisms work much more quickly on simple sugars. Indeed, most yeasts are unable to process complex carbohydrates and so need to be processed to break down complex carbohydrates into simpler, fer – mentable sugars.
The simple sugars are usually sucrose, glucose and fructose, all of which can be assimilated by a broad range of fermentation organisms to produce alcohol. The main complex carbohydrates used for alcohol fermentation are starch and inulin. Starch is made up of polymers of glucose whilst inulin – found principally in Agave for tequila production – is essentially a fructose polymer. So, for these to be effectively converted into alcohol they need to be hydrolysed. In the case of starch, amylase enzymes efficiently reduce starch to a range of simple sugars, including maltose, glucose and maltotriose.
These enzymes can be sourced from the raw materials themselves – which is a mandatory requirement, for instance, for the production of Scotch whisky – or added exogenously. Interestingly, during Scotch whisky production the amylase enzymes continue to be active and further degrade residual dextrins, thereby increasing actual alcohol yields. Inulin, the carbohydrate source from Agave used in tequila production, is a little more tractable, and is partially hydrolysed into fructose by heating either in ovens or autoclaves. Additionally, residual fructans (i.e. fructose oligomers), which find use as soluble fibre, can be broken down by certain yeast strains.
Historically fermentations generally relied on infections by local fermentative organisms, allowing for the serendipitous conversion of sugars into alcohol. Even today this so-called spontaneous fermentation approach is still used by some companies to produce products, such as the French Armagnacs and Cognacs, facilitated by the grape-borne microflora, as well as a range of rums, cachaças and tequilas, fermented by plant-borne and adventitious micro-organisms. Whilst this may seem to add an unpredictable element to the fermentation process, in practice the potential variations are less than might be expected, for two reasons. Firstly, the indigenous microflora in and around the production plants and, in the case of sugar cane based fermentations, in the field, should be relatively stable. Secondly, and arguably of more practical significance, is that batches of distillates are often blended, so that variability is evened out to some extent. Nevertheless, it is prudent to check the sensory qualities of fermentations and subsequent distillates for any substantial deviations from the expected flavour performance.
The use of cultured organisms for fermentations is preferable where production volumes are larger and to reduce the risk of variability in the time taken for fermentations to complete. There is also a half-way house approach, whereby spontaneous fermentations can be supplemented by cultured yeasts to ensure their timely completion.
The organisms used for spirit production are diverse. For whiskies and brandies, in particular, strains of Saccharomyces cerevisiae are popular; not least for their alcohol tolerance. Certain strains can also tolerate higher temperatures, up to 36°C, which encourages faster fermentations. However, other organisms, such as lactic acid bacteria and even Zymomonas, also play a role in fermentations for distillate production. There are suggestions, though, that some spirit producers need to use antibiotics to suppress bacteria and allow spontaneous yeast fermentations to perform adequately.
Another variable in the fermentation process that provokes discussion is the material of construction for the fermentation vessels themselves. Traditionally constructed from one of various species of wood, many spirit manufacturers have turned to stainless steel instead. The latter does have advantages as it is easier to clean and sterilise, but some distillers are adamant that wooden fermentation vessels are superior, despite the cleaning issues. Indeed, wood is a much better insulator, allowing fermentation temperatures to rise more effectively.
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The origins of distillation are not clear, but there is evidence to suggest that it has deep roots both in China and the Middle East. Under Paracelsian philosophy, distillation soon became associated with the creation of an elixir, the essence of a crude fermentation. (This notion was also evident in 17th century England where brewers were advised that boiling and evaporative losses from the boil were to be avoided as the essence of the beer was lost).
There are two broad design philosophies of a distillation process, based on batch or continuous processes. The former, often referred to as pot distillation, is generally used for smaller batch distillations. Legislation for Scotch malt whisky, Cognac, mezcal and rhum agricole insist that the spirit is made batch-wise from pot stills. For many other spirits it is up to the spirit distiller whether batch or continuous distillation is used. There is also some blurring at the edges. For instance, a doubler or thumper can be used as a second distillation step, containing the discarded liquids from previous distillations. This is a common approach for bourbon production.
In any case the role of the distillation process is to separate an alcohol-rich liquid from a base fermentation. Generally, the strength of the spirit leaving the still is dependent not only on the original strength of the fermented broth, but also the amount of contact that vapour has with the inside of the still. Introducing vapour restrictions – such as a more convoluted still design or putting plates or baffles into the still – helps to increase the alcohol concentration in the distilled spirits. This refinement also helps to tune out other fermentation flavours, so helping to create a more neutral flavour. Indeed, using columns with a large number of plates can be used to create neutral spirit, required for products such as gin and vodka.
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Many but not all spirit-based drinks are further ‘compounded’ by the consumer, maybe just with ice, or into ‘and’ drinks (e.g. gin-and-tonic), or elaborated further into cocktails. Again this is a clear opportunity for the drinks producer to innovate and, indeed, there is a growing number of self-proclaimed mixologists, creating drinks masterpieces for discerning consumers. In any case, with the growth of craft distilling in many places across the globe we can expect to see an increase in product diversity and inventiveness around aspects of consumer presentation. It’s enough to make one feel very thirsty!