It opens and the boxes etc appear but no numbers or formulas. And EZ isn't the only spreadsheet from previous versions that it won't handle. Did I mention that this is the Mac version?
EZ Water Calculator 3.0
- Thread starter -TH-
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Help Support Homebrew Talk:
It opens and the boxes etc appear but no numbers or formulas. And EZ isn't the only spreadsheet from previous versions that it won't handle. Did I mention that this is the Mac version?
mistercameron
Well-Known Member
I'm just seeing this for the first time. Great idea, and even better idea making an open office version.
Have you considered doing a web version?
Have you considered doing a web version?
OP
OP
-TH-
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I have looked into it some, but I haven't found an easy way to create one.
mistercameron
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-TH- said:
I don't know if there's an easy way to export from excel to a web page, so I guess it would have to come down to having the time and skills to do it.
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Excel 2010 can Save As a web page.
mistercameron
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GilaMinumBeer said:
Will it do all the equations and calculations?
![Craft A Brew - Safale BE-256 Yeast - Fermentis - Belgian Ale Dry Yeast - For Belgian & Strong Ales - Ingredients for Home Brewing - Beer Making Supplies - [3 Pack]](https://m.media-amazon.com/images/I/51bcKEwQmWL._SL500_.jpg)
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I just tried a Save As to web page and then opened it up in IE.
The answer is, no? As far as I can see it only preserves the graphical content. Maybe the formulae are still there and some minor tweaking needed to allow field edits but I don;t know anything about that.
I've found Google Docs to work very poorly with spreadsheets. It screws the crap out of Bru'n Water if you try it there. I imagine it does the same to EZ. If you need a freeware spreadsheet program, the LibreOffice program works very well in my opinion. I think its better than OpenOffice. I'm really surprised that the new version of Excel is not being very backward compatible.
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Excel 2010 has been flawless in backwards compatibilty for me and I use a LOT of elaborate spreadsheets.
But, the originator has to save the 2010 workbook as a 97-2000 workbook for it to be seamless or a lot gets mucked up.
mistercameron
Well-Known Member
I know it's doable in HTML/JS, I guess there's no automated way to export the working spreadsheet, which means any change there means manually updating all the affected code in JS.
I still think the Open Office version is great, as I refuse to buy any more MS products.
Maybe this was answered earlier (and if it was I apologize) but does the "new" calculator have phosphoric acid as an addition, rather than lactic acid? I'd like to choose between them for acidification.
Looks like only Lactic Acid and Acidulated Malt for acid choices in v. 3.0.1.
wildwest450
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What grain type would you put carapils under in the spreadsheet?
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I believe its a light crystal malt made from pilsner
Surly
Well-Known Member
So my question: Is there a source that indicates what type/style of grain for inputting into the spreadsheet?
If not, how accurate must we be in setting the grain specs?
hafmpty
Well-Known Member
OK. I'm going to sound like a total idiot here, but what do you all use to calculate your sparge water volume. I'm really struggling with this part of the calculator. I fly sparge so I don't ever calculate my sparge water. I just fill my keggle with 10 gallons of water and run off until I reach my volume or until the gravity drops to where I risk extracting tannins. So how should I do this?
Thanks!
Thanks!
I do it exactly the way you do. With experience I have some expectation as to how much water will actually be used but I keep the HLT full throughout the brew day and then simply throw out any that is left over at the end of the day.
I treat all water the same. I start with an HLT full of water and as I top up add 1 cc of concentrated salt solution for each inch of water I add. The strength of the concentrated solution is calculated such that each cc contains the salt that would be required for 1" of water in the HLT.
If you wish to treat the sparge water separately then just compute the salt additions you need for 10 gal and add that much to 10 gal of water. Then throw away any water you don't use. The salts are cheap.
I treat all water the same. I start with an HLT full of water and as I top up add 1 cc of concentrated salt solution for each inch of water I add. The strength of the concentrated solution is calculated such that each cc contains the salt that would be required for 1" of water in the HLT.
If you wish to treat the sparge water separately then just compute the salt additions you need for 10 gal and add that much to 10 gal of water. Then throw away any water you don't use. The salts are cheap.
hafmpty
Well-Known Member
That would be the logical thing to do. But here's where I get mixed up:
Some of the salts will just end up sitting at the bottom of the HLT because they won't dissolve because of the pH. I'm fine with making up 10 gallons of sparge water. That would be a heck of a lot easier. But how do I adjust the water in the HLT so the salts will dissolve and actually end up in my boil?
You don't. If they won't dissolve in the HLT they won't dissolve in the kettle. There are a couple of things which could cause what you are seeing. One is that you are trying to dissolve chalk which is insoluble in water. But you should never put chalk into sparge water (or any water in 99% of cases). Chalk would be the only case where pH would have anything to do with its dissolution. You could add chalk and, for example, enough hydrochloric acid to lower the pH enough to dissolve it which would result in calcium chloride in the beer (and some calcium bicarbonate) but it's easier to just add some calcium chloride and you wouldn't have the residual calcium bicarbonate.
The second is that you are trying to dissolve gypsum. Gypsum is lots more soluble that chalk but not terribly soluble (2 g/L) and is less soluble in hot water than in cold. So dissolve gypsum in cold water and then heat it. Even in cold water it can take a lot of stirring to get it to dissolve and I do mean a lot. If you dissolve it cold and it precipitates when the water is heated you are trying to dissolve too much but I can't fathom why anyone would want to put that much gypsum into sparge water. Actually, I really don't understand why people want to treat sparge water differently from the mash water other than to acidify it. If you want to add salts to the kettle (and again I don't know why you would though I think some add extra calcium to try to precipitate more phosphate and lower pH further) add them to the kettle
kal
Well-Known Member
Good point as fly spargers (like myself) do not need to calculate sparge volumes. You just go until you reach your boil kettle volume or gravity drops like you mentioned.
I only calc sparge volumes for EZ water. Here's how I do it using a recent batch as an example:
Amount of grain: 18.5 lbs
Mash thickness: 1.25 qt/lb
So, strike water = (18.5 x 1.25)/4 = 5.8 gal
I have an extra 0.5 gal in the hoses/HERMS coil so I raise the strike water to 6.3 gal
Loss to grain absorption = 18.5 x 12% = 2.2 gal
So sparge water = initial boil kettle volume I want + loss to grain absorption - strike water = 13.9 + 2.2 - 6.3 = 9.8 gal.
Kal
If you want your salts to properly dissolve into an aqueous solution (i.e. water), you'll need to pre-adjust a small amount of water to the conditions that each salt requires and then add that to your brewing liquor. 0.5-1 cup of water should be a large enough volume to adjust temperature and/or pH as needed. With a little fore-thought, any intended acidification from lactic acids can be used in this pre-treatment. To get the best dissolve, prepare them ahead of time (not days before or anything....just be sure to give the salts enough time and agitation for proper ion separation, etc.). A little math and you should be able to dump them into your liquor as it is heating up and end up with a properly-adjusted water with the right pH and without excessive precipitation.
hafmpty
Well-Known Member
OK so I'm not totally out in left field. That's basically what I've been doing. Thanks.
Thanks for the idea DarkBrood. That is not something I've ever done. Have you ever done that? If so, would you be willing to share your process for a recent recipe so I can see the numbers. If not, would you do a "hypothetical"?
kal
Well-Known Member
Or we may both be playing way out in left field by ourselves ....
It seems to make sense however.
Kal
I have done a cold dissolve with gypsum before - certainly does increase solubility. I've been looking into small-batch solutions for my brewing salts for a little bit now. I have a set of mason jars labelled for each salt and am currently trying to pin down the specifics for each addition and balance the adjustments against each other. It is important to remember that everything you are using for the pre-adjustments will end up in your liquor, so be sure to sum up any acids, etc. that you use. Also, if you're hoping to add them in-process (rather than pre-mash), you're going to be adding colder water (which will affect your temps) and the solutions will be added at differing pH's. Just like determining your initial amounts of the salts to add, there are a lot of interdependencies between time, temp, pH, solution density, and other factors that require careful balancing for your own process. Eventually, I'll probably put out a small dissertation on it, but if I try to get the specifics written out right now, we'd probably all end up confused....
A good place to start is looking into exactly what conditions are required for each salt to dissolve completely into solution (meaning proper ion separation, not just "you can't see it any more") and go from there.
That shouldn't take much effort:
Calcium Carbonate: Insoluble. Shouldn't be used
Sodium Carbonate: Infinitely soluble*. Shouldn't be used
Calcium Chloride: Infinitely soluble
Calcium Sulfate: Soluble to the extent of 2 g/L at 20 °C. More soluble in cold water
Magnesium Sulfate: Infinitely soluble
Sodium Chloride: Infinitely soluble
Potassium Chloride: Infiinitely soluble
Calcium Hydroxide: Soluble to the extent of 1.73 g/L at 20 °C. More soluble in cold water than hot. Use vary sparingly and only if required.
*Infinitely soluble in this context means that as much as you would ever want to dissolve in a brewing situation readily dissolves.
Calcium carbonate should not be used because it does not dissolve unless acid is added and it raises alkalinity
Sodium carbonate should not be used because it raises alkalinity and because it will cause stripping of calcium when a solution containing it which also contains a calcium salt is heated (precipitation of calcium carbonate).
AJ,
For Ca(OH)2 and CaSO4, those additions listed above both produce ionic concentrations that will be higher than a brewing situation should ever want. So for almost all those minerals listed, they are 'infinitely' soluble for brewing purposes. Chalk is the exception.
You're kind of hard on chalk although its poor reputation is deserved. But, it still can have a place in brewing with the proper understanding of its idiosyncrasies. As you and Kai Troester have pointed out, about half the predicted alkalinity from chalk is contributed to water if the chalk is not 'dissolved' into the water with an acid. When 'naturally' dissolved by carbonic acid, all the predicted alkalinity is contributed to the water. Either bubbling air or CO2 through the water produces carbonic acid for that dissolution.
Your mantra of not adding alkalinity to brewing water unless actually needed is sound. But there are situations where alkalinity is needed and chalk is a viable, yet poor, avenue for adding it.
For Ca(OH)2 and CaSO4, those additions listed above both produce ionic concentrations that will be higher than a brewing situation should ever want. So for almost all those minerals listed, they are 'infinitely' soluble for brewing purposes. Chalk is the exception.
You're kind of hard on chalk although its poor reputation is deserved. But, it still can have a place in brewing with the proper understanding of its idiosyncrasies. As you and Kai Troester have pointed out, about half the predicted alkalinity from chalk is contributed to water if the chalk is not 'dissolved' into the water with an acid. When 'naturally' dissolved by carbonic acid, all the predicted alkalinity is contributed to the water. Either bubbling air or CO2 through the water produces carbonic acid for that dissolution.
Your mantra of not adding alkalinity to brewing water unless actually needed is sound. But there are situations where alkalinity is needed and chalk is a viable, yet poor, avenue for adding it.
