peterpiper
Well-Known Member
At present I'm using Lactic acid for mash PH adjustment, but suspect I taste it in certain beer styles. So planning to switch to Phosphoric acid
The amount needed might be easier to measure if it's diluted, maybe to 50% or 25%. And also safer, in case of any splashes.
With 50% strength, it would take in the order of 11ml, to reduce mash PH by half a point (21 litre mash).
An earlier post Phosphoric Acid dealt with dilution, but the answers didn't agree, or weren't very clear. So hoping someone can confirm I've got this right. then method might be useful to others.
Say for dilution from 75% to 25%:
Due to acids density being different to water, it's not simply going to be 1 part acid : 2 parts distilled water by volume.
One formulae # given in that post was: Vol1 x Density1 x Conc%1 = Vol2 x Density2 x Conc%2
A table of densities (at 20°C) is given at Density of phosphoric acid - Steffen's Chemistry Pages
75% strength - density is 1.579 (g/cm³)
25% strength - density is 1.1462 (g/cm³)
Vol1 * 1.579 * 75 = Vol2 * 1.146 * 25
Vol2 = Vol1 * 4.133
So to make 250ml @25%, you use 60.49ml @75% with 189.51ml of distilled water.
As check: putting figures into brewfather: phosphoric 250ml @25% and 60.49ml @75% both show same change in mash ph. So it seems that formula # is correct.
But measuring small amounts by volume is hard (unless you have pipettes). It's usually easier to measure small amounts by weight on gram scales.
Changing calculation, (for 250ml @25%) to weight:
60.49ml @75% is 60.49ml * 1.579 g/cm³ = 95.51g
The density of water at 20°C is 0.99823 g/cm3
189.51ml water is 189.51 * 0.99823 = 189.17g
total weight =284.68g
Crosschecking:
Volume of 284.68g Phosphoric acid @25% is 284.68g / 1.1462 (g/cm³) = 248.37ml (should have been 250ml, not sure why the error. Table figures out?)
Anyway, that's 95.51g acid @75% to 189.17g water
which is 1 part acid @75% to 1.98 parts water by weight, or nigh on 1 part acid : 2 parts distilled water by weight, for a 3:1 dilution from 75% to 25%.
I think the 1.198 should have come out as 2, and guessing there's slight errors in the table (every online table seems slightly different) rather than my calculating to just 2 DP.
Or going back to the start equation:
Vol1 x Density1 x Conc%1 = Vol2 x Density2 x Conc%2
and converting it to weight (weight = volume * density)
Weight1 x Conc%1 = Weight2 x Conc%2
Then much easier, as no density table needed.
Weight of water for dilution = ((Start_Concentration% / Finish_Concentration% ) -1) * Weight of acid
For the example, diluting from 75% to 25%
Weight of water = ((75/25)-1) * weight of acid
= 2 * weight of acid
Where diluted by volume, its best to have both the phosphoric acid and distilled water at as near 20°C as possible. Otherwise it involves checking how density variation with temperature might differ between them. All brew day measurements are done at 20°C, right!
I guess, when diluting by weight the temperature won't matter.
Diluting acids should always be done by adding the acid to the water.
Not the other way round, where an exothermic reaction could be dangerous.
I'm buying Growth Technology pH Down, 81% Phosphoric acid (as it's easier to get).
diluting to 25% from 81%
ratio = ((81/25)-1) = 2.24
so for 87g acid I need 194.88g water
totals about 282g, or 246ml (to fit a 250ml bottle)
diluting to 50% from 81%
ratio = ((81/50)-1) = 0.62
so for 82g acid I need 50.84g water
totals about 132.8g, or 99.5ml (to fit a 100ml bottle)
Brewfather only seems to calculate acid addition given in ml. Not in grams (where I could then use scales).
So I might try a double neck dispensing bottle (with calibrated chamber), rather than fiddle with measuring spoons.
A better use for my 100ml star-san bottle once it's empty, than recycling!
The amount needed might be easier to measure if it's diluted, maybe to 50% or 25%. And also safer, in case of any splashes.
With 50% strength, it would take in the order of 11ml, to reduce mash PH by half a point (21 litre mash).
An earlier post Phosphoric Acid dealt with dilution, but the answers didn't agree, or weren't very clear. So hoping someone can confirm I've got this right. then method might be useful to others.
Say for dilution from 75% to 25%:
Due to acids density being different to water, it's not simply going to be 1 part acid : 2 parts distilled water by volume.
One formulae # given in that post was: Vol1 x Density1 x Conc%1 = Vol2 x Density2 x Conc%2
A table of densities (at 20°C) is given at Density of phosphoric acid - Steffen's Chemistry Pages
75% strength - density is 1.579 (g/cm³)
25% strength - density is 1.1462 (g/cm³)
Vol1 * 1.579 * 75 = Vol2 * 1.146 * 25
Vol2 = Vol1 * 4.133
So to make 250ml @25%, you use 60.49ml @75% with 189.51ml of distilled water.
As check: putting figures into brewfather: phosphoric 250ml @25% and 60.49ml @75% both show same change in mash ph. So it seems that formula # is correct.
But measuring small amounts by volume is hard (unless you have pipettes). It's usually easier to measure small amounts by weight on gram scales.
Changing calculation, (for 250ml @25%) to weight:
60.49ml @75% is 60.49ml * 1.579 g/cm³ = 95.51g
The density of water at 20°C is 0.99823 g/cm3
189.51ml water is 189.51 * 0.99823 = 189.17g
total weight =284.68g
Crosschecking:
Volume of 284.68g Phosphoric acid @25% is 284.68g / 1.1462 (g/cm³) = 248.37ml (should have been 250ml, not sure why the error. Table figures out?)
Anyway, that's 95.51g acid @75% to 189.17g water
which is 1 part acid @75% to 1.98 parts water by weight, or nigh on 1 part acid : 2 parts distilled water by weight, for a 3:1 dilution from 75% to 25%.
I think the 1.198 should have come out as 2, and guessing there's slight errors in the table (every online table seems slightly different) rather than my calculating to just 2 DP.
Or going back to the start equation:
Vol1 x Density1 x Conc%1 = Vol2 x Density2 x Conc%2
and converting it to weight (weight = volume * density)
Weight1 x Conc%1 = Weight2 x Conc%2
Then much easier, as no density table needed.
Weight of water for dilution = ((Start_Concentration% / Finish_Concentration% ) -1) * Weight of acid
For the example, diluting from 75% to 25%
Weight of water = ((75/25)-1) * weight of acid
= 2 * weight of acid
Where diluted by volume, its best to have both the phosphoric acid and distilled water at as near 20°C as possible. Otherwise it involves checking how density variation with temperature might differ between them. All brew day measurements are done at 20°C, right!
I guess, when diluting by weight the temperature won't matter.
Diluting acids should always be done by adding the acid to the water.
Not the other way round, where an exothermic reaction could be dangerous.
I'm buying Growth Technology pH Down, 81% Phosphoric acid (as it's easier to get).
diluting to 25% from 81%
ratio = ((81/25)-1) = 2.24
so for 87g acid I need 194.88g water
totals about 282g, or 246ml (to fit a 250ml bottle)
diluting to 50% from 81%
ratio = ((81/50)-1) = 0.62
so for 82g acid I need 50.84g water
totals about 132.8g, or 99.5ml (to fit a 100ml bottle)
Brewfather only seems to calculate acid addition given in ml. Not in grams (where I could then use scales).
So I might try a double neck dispensing bottle (with calibrated chamber), rather than fiddle with measuring spoons.
A better use for my 100ml star-san bottle once it's empty, than recycling!
Don't make me laugh when I can buy Belgian and English beer that tastes better and is not hampered by a law prohibiting the use of perfectly good beer making ingedients!
