Whisky, in all its iterations, is not just an end product, not just a drink...though it is a good one at that. It is a science, an art, alchemy and magic, geography and history, and it is people (um, not like soylent green...).
There are many exemplary sites out there on the making and tasting of whisky, and I don't intend on reinventing that wheel. I just want to bring some story to what I think is a fascinating process.
You can see more whisky photographs as well as not-just-whisky photographs and ramblings if you follow the links in the sidebar. Please take
a look...or not.

May 24, 2010

more heat

I got thinking more about heat after my last post and realized just how prevalent it is in the whisky making process, and that I'd overlooked some of my photographs reflecting the subject which may be of interest to you. So I guess this is part two.

A couple of the photos have an annoying lens shadow at the bottom of the image, for which I apologize. I would normally not hesitate to excise such offences to my aesthetic sensibilities, however I felt that the subject matter would have suffered somewhat if I had cropped them out. So be it...I'll just have to do the suffering with a cringe or two every time I see them.


beating hot copper at Forsyth's, turning it into a whisky still

Forsyth's, in the town of Rothes in Speyside, have been crafting the lions share of Scotch whisky distillery equipment since the end of the nineteenth century. Dad and I were lucky enough to be graciously hosted by Mr. Richard Forsyth on a very interesting tour of the factory. I suspect this is the upper section of a still in the making. After having been heated by another coppersmith with a torch, this chap is beating the red hot metal into shape. The outer shell of a condenser is lying on the floor behind him.


raking the germinating barley on the malting floor at Bowmore Distillery

Bowmore is one of the few remaining distilleries to floor malt some of their own barley. While germinating, the barley produces heat which must be regulated by turning over with wide flat shovels and raking, which is being done here. This also prevents the emerging rootlets from tangling into an unmanageable clump. As you can see, this process is quite labour intensive and back breaking so it is also done by machine.



This is a rare sight - too bad I messed it up with a shadow (cringe #1!). The inside of Springbank's wash still with one of the few rummagers in existence. When a still was (is, in this case) directly fired with an open flame from below, as all stills used to be, there needed to be a method of preventing the contents from scorching. This was achieved by the rummager, a strip of copper chain mail which revolved inside the still in order to stir and scrape the bottom, not unlike what needs to be done when you make your porridge on the stove. This still is also heated by steam which travels through the pipes seen around the circumference.


inside a still at Glen Scotia Distillery showing the steam heating pots

The interior of a Glen Scotia still. The silver pots radiate heat from steam inside the pipes which can be seen just below the liquid surface. They, of course, would be covered when the still is in full tilt boogie mode (one of the lesser known whisky distilling terms!...and an obtuse shoutout to Canadian backup bands everywhere!!).


rotating barrel being recharred in the cooperage at the Balvenie


The charring of the inside surface of whisky barrels is done in a couple of ways. At the Speyside Cooperage where they refabricate zillions of barrels for the Scotch whisky industry, the barrels are stood upright with no ends above a furnace which blasts a huge flame through the barrel like a chimney. Very cool sight. This photograph, however, is from the cooperage at the Balvenie where they do all their own barrel work on site. You're looking at the end of a barrel on its side, through a window I might add, which is being spun round by the two rollers at the bottom of the image. A flame is then blasted into the open end facing away from us, which can be seen shooting out the bung hole. It, too, is a pretty cool sight to see.


barrels at the Bruichladdich Distillery showing interior char


This is one of my favourite barrel images, so I'm glad to be able to share it with you to end off this post. It is a triptych of Bruichladdich barrels, with one showing the result of the interior charring (or maybe it's from all of my hot air floating about!).


Slàinte


May 10, 2010

the heat is on

One of the fundamental skills in whisky making is understanding heat, how to apply it and how to move it around. Indeed I suspect one of the biggest costs involved in producing whisky lies in the creation of process heat, so its efficient manipulation is crucial to our getting an affordable dram.

Quite a lot of distillery tour guides will tell you of the happy cows which are fed the draff or spent grains left over from the mashing process. Glenfarclas also incorporates their pot ale or spent wash into the draff for livestock feed, a byproduct which has traditionally been disposed of by most (I'm guessing) distilleries. Bruichladdich is looking into the creation of methane from their pot ale, using it to help power the distillery. I'd like to think that waste heat recapture is high on the list of research into the further improvement of distilling efficiency. We humans are a wasteful lot, and must get to a point where the byproducts of human activity cease to be considered waste but moreso as raw material for some other industrial process or human endeavour. Every natural process is part of a closed cycle, and human industry should be no different...Am I grandstanding again?

The main use of heat in a distillery is, of course, to separate the alcohol from the rest of the liquid within the stills by evaporation. And in order for us to be able to drink it, it must be condensed into a liquid again. This is the job of the aptly named condensers, those big copper columns which are often seen standing beside and connected to the stills. In some distilleries they are situated outside, for lack of space or to keep them cooler (another guess there). The vapour coming off the still is sent through the condenser where it circulates around a series of smaller tubes running the length within it. These tubes hold cold water which takes the heat from the vapour allowing it to condense back into a liquid. This is one of the processes which we are unable to see happen during that tour of our favourite distillery.

However there is another, older technique for condensing the vapour coming off the stills and that is the use of wormtubs. The function is the same but the technology is a little less sophisticated (arguably?). The vapour passes through a tube which "worms" its way in a circular path down through a large "tub" of cold water, usually outside.


the stillhouse at Bunnahabhain Distillery

the stills at Kilchoman Distillery


the workings inside Abhainn Dearg Distillery

wormtub condensers outside Cragganmore Distillery


At the top are Kilchoman and Bunnahabhain. The third photo shows the wormtubs of Abhainn Dearg, which are inside and sit above the two stills. The last photo shows the outside tubs of Cragganmore. I bet these would make dandy hottubs during a chilly winter. Dram in hand, soaking in the soothing warmth while snowflakes gently caress your face...mmmmmmm.


Slàinte