Difference between revisions of "Beer color, alkalinity and mash pH"

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(Malt color, type and acidity)
(Malt color, type and acidity)
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*'''a<sub>sj</sub>''': the acidity of the specialty malt j in mEq/kg
 
*'''a<sub>sj</sub>''': the acidity of the specialty malt j in mEq/kg
 
*'''R<sub>mash</sub>''': the mash thickness in l/kg
 
*'''R<sub>mash</sub>''': the mash thickness in l/kg
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= Random recipe creation and pH and color calculations =
  
 
Along with the measured values for the distilled water pH of select base malts and acidity select select specialty malts 210 recipes were simulated. The recipes were thrown together randomly with the following constraints:
 
Along with the measured values for the distilled water pH of select base malts and acidity select select specialty malts 210 recipes were simulated. The recipes were thrown together randomly with the following constraints:

Revision as of 04:19, 19 February 2010

Work in progress.jpg


Mash pH is the result of the balance between acidity of the grist and alkalinity of the water. The acidity of the grist is determined by the malts used and darker malts are generally more acidic than lighter colored ones. The color of the malts used in the grist also determine the beer color to a large extend. On the other hand the water alkalinity, to be correct its residual alkalinity, is determined by its mineral composition. It therefore stands to reason that beer color and water composition, necessary for a proper mash pH, are related.

This article uses results from mash pH experiments to shed light on the relationship between beer color, mash pH and water composition. It also develops a formula that can be used to make a crude prediction of the mash pH or the alkalinity necessary for a given mash pH based on the color and mash thickness of the beer. This formula has been implemented in the water calculator (Kaiser_water_calculator.xls) to predict the mash pH from beer color, mash thickness and water composition.

Malt color, type and acidity

Brewers know that darker malts are more acidic. But what does it mean for a malt to be more acidic? They for sure don't taste sour.

Malt acidity is the ability to lower the mash pH and it can be measured via 2 means. One is the pH of a distilled water mash. Because of the absence of pH affecting ions the pH of that mash is determined only by the malt acidity and the mash thickness. Another approach is to take a sample from such a mash and add a strong base (e.g sodium hydroxide) to it until a predetermined pH (e.g pH 5.7) is reached. The amount of base added per unit of malt is a direct measure of that malts acidity. Testing the distilled water mash pH works well for base malts. Specialty malts, however, are generally much more acidic than base malts and testing their acidity through titration works better.

In aforementioned mash pH experiments the following formula was developed for calculating the distilled water pH of a given grist.

Formula pH distilled water mash.gif

Where:

  • pHDI water mash: the mash pH of the grist in distilled water
  • pHbi: the distilled water mash pH that particular base malt i
  • gbi: the contribution of base malt i to the weight of the grist (between 0 and 1)
  • gsj: the contribution of the specialty malt j to the weight of the grist (between 0 and 1)
  • asj: the acidity of the specialty malt j in mEq/kg
  • Rmash: the mash thickness in l/kg

Random recipe creation and pH and color calculations

Along with the measured values for the distilled water pH of select base malts and acidity select select specialty malts 210 recipes were simulated. The recipes were thrown together randomly with the following constraints:

  • 15 recipes mixed only base malts
  • 45 recipes mixed base malts with up to 15% crystal malts. 50 of these recipes used only 2-row as base malt. The other 15 used a random mix of different base malts. The percentage of crystal malts in these grists was randomly chosen between 1 and 15%. In addition to that the types and and percentages of different crystal malts were also chosen randomly
  • 45 recipes mixed base malts with up to 8% crystal malts and up to 8% roasted malts. 50 of these recipes used only 2 row as base malt while the other 15 used a mix of base malts. Similar to the recipes that used only crystal malts as specialty malts these recipes here had their actual crystal and roasted malt percentages determined randomly. The same applied to the types of malts that were chosen
  • 45 recipes used only roasted malts. Those roasted malts recipes were created similar to the crystal only recipes mentioned earlier

Crystal and roasted malts were treated as distinct groups since they also formed distinct clusters when their acidity was plotted over their color.

For all these random recipes the distilled water mash pH of the grist and the color of the beer was calculated. The DI water mash pH was determined for 4 different mash thicknesses 2, 3, 4, and 5 l/kg. For the color calculation it was assumed that the total grist weighed 10 pound and the cast out volume was 5 gallon.




Beer color to DI pH.gif
SRM to DI pH for different mash thickness.gif