Wednesday, April 16, 2014

Fermentation waters

Glenlivet is one of the few Scottish distilleries using hard water,
but nobody told the AD.
Water is used in several phases of whisky production: steeping, mashing, cooling and dilution. Formerly water mills provided much of the energy needed in many distilleries as well. Distilleries have often been founded into places where water is easily available and it is believed at least in the marketing departments that fresh spring water or picturesque peaty burns play a significant role in the manufacturing process.

The most important attributes of steeping and mashing water are its hardness, pH, overall mineral content and microbiological purity.

Water hardness means the concentration of multivalent cations in the water, ie the amount of ions with a charge of +2 or more (mainly calcium and magnesium) and it is usually expressed as concentration of calcium carbonate (CaCO3) in the water. Soft water is defined as containing under 40-100 mg/l and hard water over 80-200 mg/l of CaCO3, depending on the source.

The pH (pondus hydrogenii) of water means the activity of hydrogen atoms in the water. The pH value describes the acidity of the water in logarithmic scale, ie pH 4 is ten times more acidic than pH 5 and hundred times more acidic than pH 6.

The malt or grain is another source of acidity in the mash. The darker the roast of the malt, the more acidic it gets. Therefore soft alkaline water is often preferred for brewing pale malts and hard water for darker acidic malts. The malts used in whisky production are as pale as possible to ensure the best alcohol yield. The commonly desired pH for mash is about 5-5,5, a lower pH might cause excessive lactic acid bacteria production and a higher pH a slower or incomplete fermentation. Calcium is the most important mineral affecting both the pH and water hardness. Calcium itself does not taste of anything at usual concentrations, but it lowers the pH, increases water hardness and yeast flocculation and might reduce magnesium making the flavour less sour.

Other important ions in the brewing waters are sodium (Na+) and the common anions; sulphate (SO4-2), chloride (Cl-) and carbonate (CO3-2). Sodium softens the water by decreasing the effect of CaCO3 and at higher concentrations (over 50 ppm) makes the water sweet, or even salty (>150 ppm) and sour (>250 ppm). Sulphate enhances bitter, dry and sulphury flavours, complimenting the hoppy aromas of beers and providing antibacterial influence in  both fermentation and bottle-aging, reducing the lactic acid bacteria growth. Chloride enhances malty flavour, but at high concentrations it might give pasty, salty or chlorine aromas. None of Scottish distilleries use chlorinated water for their fermentations.

The local water quality was probably one of the reasons why brewers in Burton-on-Trent and Edinburgh went for bitter highly hopped IPAs (high CaSO4), in Pilzen for light crisp lagers (extremely soft water), in Münich for darker lagers (higher CaCO3), in Dublin for dark stout (high CO3-2, low Na+ and relatively low Ca+2) and in London for dark sweet porter (high CaCO3 and NaCO3).

Ion concentrations in typical brewing waters (Maltman 2003)
All rainwater is soft, it is in the water reservoirs it acquires its hardness. The longer the water spends in rivers, lochs or underground aquifers, the more time it has to gain solubles from the ground. The geology also plays a significant part, as hard granite or quartz is less soluble than limestone or chalk and very different from young basalt. 


SpringBurn/RiverLochWellMains
ArdmoreAberfeldyArdbegAuchroiskDevanha
BalvenieAberlourAuchentoshanGlenlivetDundashill
BenriachAllt-a-bhainneBruichladdichMacallanOban
BenromachAultmoreCambusSt MagdaleneStrathdee
CardhuBalblairCameronbridgeSaucel
ConvalmoreBalmenachCaol IlaStrathisla
CraigellachieBenrinnesPort Dundas

EdradourBladnochMillburn

FettercairnBlair AtholGarnheath

GlenallachieBowmoreGlen Flagler

GlenburngieBraesIslabrae

GlencadamBroraKillyloch

GlendullanBunnahabhainKinclaith

Glen ElginCaledonianNort Port

GlenfarclasCaperdonichPort Ellen

GlenfiddichClynelishProvanmill

Glen GariochCragganmorePulteney

GlenglassaughDaftmillRiechlachan

Glen GrantDailuaineRosebank

GlenkinchieDallas DhuSpringbank

GlenmorangieDalmoreLongrow

Highland ParkDalwhinnieSpringside

LongmornDeanstonStrathclyde

MortlachGlen AlbynTobermory

PittyvaichGlendronach


Royal LochnagarGlen Esk


StrathmillGlengoyne


TamdhuGlenlochy


TamnavulinGlenlossie


TeaninichGlen Mhor


TomintoulGlen Moray



Lochside



Macduff



Mannochmore



Man O'Hoy



Miltonduff



Royal Brackla



Scapa



Speyburn



Talisker



Tomatin



Tormore



Tullibardine


Water sources for mashing, hard waters in bold (Modified from Udo, 2006)

Scotland is divided into various different geological areas basically by several southwest-northeast-lines as illustrated below.

Geological map of Scotland (www.scottishgeology.com)

Speyside and the eastern part of Islay lie on the Dalradian rocks, formed about 570 million years ago and consisting mainly of metamorphosed sedimentary mudstone (schist and quartzite) with some granite hills. The rocks are old and resistant, therefore contributing little to the water, rendering it usually very soft, slightly alkaline and low sulphur. Notable exceptions are Glenlivet and Aberlour, which lie on top of granite-rich soil containing some limestone, rendering the water somewhat harder, especially from wells. 
Geology of River Spey (www.snh.org.uk)
The Moray Firth at the Great Glen Fault there is essentially a river delta with mud and sand carried by the rivers, consisting of especially old red sandstone. The red colour comes mainly from iron, but the porous sandstone is also rich in calcium and magnesium, rendering the water in the Northern Highlands and Orkney significantly harder than in the Speyside. The water of Islay lies somewhere in between.

Typical waters from Scotland (UisgeSource)









Several American distillers believe in hard, low-iron water
However, many distilleries do process the waters they use. Apparently all the distilleries use at least ion-exchange methods for their bottling (dilution) water, but not necessarily for the reduction right after distilling (to bring the new make spirit down to 63.4% abv). None use chlorinated water for mashing or dilution nowadays. In the earlier part of the 20th century local bottling water was used and there were complaints that London water turned the whisky blue and cloudy whereas Speyside water did not, probably due to harder water of London. Although there are several breweries applying reverse osmosis (demineralization) and specifically mineralized (Burtonized) waters, these methods are not used in the distilling industry, or at least they are not made public. Water softening with resins is not used, and it could be detrimental because it tends to increase the sodium levels. Grain distilleries might benefit from hard water, as the calcium induces enzyme activity and lower malt contents and faster fermentations could be possible, although it is not entirely clear whether the mineralization of mashing waters is allowed by the law and the Scotch Whisky Association.

So, fermentation waters affect the quality of mash. The minerals themselves do not significantly distill into the spirit, but they affect the fermentation process before it. Soft water probably produces more faster fermentations and lactic acid bacteria growth generally resulting in heavier spirits, as the harder Highland waters produce cleaner and sweeter spirits. Iron is considered as a fault in brewing water and it is likely to produce less estery, fruity spirits. Zinc might do the same at higher concentrations, but is vital for yeast cells in lower concentrations. Peaty water does not provide enough phenols to render the spirit peaty, but higher amount of organics in the fermentation water does produce more esters and less higher alcohols, probably due to greater bacterial growth and yeast autolysis. Fermentation water quality is important to the quality of whisky, but in a different way it has been marketed.

Effect of brewing water to the spirit sensory quality (Wilson, 2010)









REFERENCES AND FURTHER READING
Cribb, S&J. Whisky on the rocks. Earthwise, 1998
Geikie, A. The Scenery of Scotland viewed in connection with its Physical Geology. Macmillan 1887.
Goldamer, T. Brewer's handbook. Apex, 2008
Maltman, A. Wine, beer and whisky: The role of geology. GeologyToday 2003;19;1;22-29
Palmer, J & Kaminski, C. Water, a comprehensive guide for brewers. Brewers Assoc., 2013
Scottish Natural Heritage. http://www.snh.org.uk/pdfs/consults/spey/speyreport.pdf
Wilson, CA et al. The role of water composition on malt spirit quality. Nottingham Univ Press, 2010

7 comments:

  1. A very interesting collective view to how used water affects the mash especially, in terms of end product - the new make spirit. A much discussed aspect of the final spirit's chemical qualities is the length of the fermentation process, and here the link to yeast's effective lifespan and water quality seems really important also. Long fermentation = very fruity spirit, that matures faster to a flavour profile matching "ready" whisky, so it is said.

    ReplyDelete
  2. Thanks for sharing such informative blog article with us which is very useful as user point of view. Thanks for sharing it.

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  3. “Therefore soft alkaline water is often preferred for brewing pale malts and hard water for darker acidic malts"
    Teemu, It's your mistake or I have something misunderstand?

    I think, if pale malts have smaller acidity than darker malts, so the alkaline water should be better for darker malts to reduce its acidity and hard water should be better for pale malts to enlarge its acidity.

    And, you wrote “calcium itself does not taste of anything at usual concentrations, but it lowers the pH, increases water hardness and yeast flocculation and might reduce magnesium making the flavour less sour.”

    How does calcium affect magnesium and how it make flavour less sour when acidity is enlarged by calcium in general so it makes the flavour less sour nevertheless.

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    Replies
    1. my mistake, it should be read as "so it makes the flavour more sour nevertheless"

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    2. Not sure if this blog is still alive but I'll post a reponse to your seven month old comment if you're still curious or even remember having made it...

      Darker malts are more acidic, true, but the acids in them are productive towards new flavors during the aging process. You would not want to use heavily alkaline water in general because it will reduce esters.

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  4. In practice, I always correct water pH before mashing. As far as I know pH is very significant for enzymes activity. Optimal pH reported lays between 5.5-6.0. The water from our central water supply has the pH of 8.0-8.5. I use concentrated sulfuric acid to lower the pH to 5.7-5.8. Saccharification and fermentation seem to run very well.

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    Replies
    1. Why Sulfuric acid (nasty stuff) when a small amount of Citric acid will do exactly the same thing and doesn't introduce dodgy sulfur compounds to the fermentation environment? Personally I always pH correct my wash to 5.2 just prior to pitching.

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