The conception of the system if interested; https://www.homebrewtalk.com/threads/multiple-concurrent-small-batch-brewing.729207/
This brew day is looking at what effects and/or differences there may be if you get a LOT of the fine mash particles into your boil (cloudy wort runoff from the mash) and also if you get a lot of the post boil kettle trub into the fermenter.
This Cream Ale, derived from the book "Brewing Classic Styles" was mashed in my 15 gallon eBIAB rig, relatively soft water profile acid adjusted to a 5.39 mash pH. The grain was milled as fine as a two roller mill can handle, approximately .012" gap. The kettles that would be filled with very clear, fines-free wort came from the mash recirculation hose directly before the mash was ever disturbed. The kettles with mash fines were filled AFTER the BIAB was pulled, squeezed and the wort stirred well. A point to note is that the wort you'd get in a typical BIAB batch would have an average amount of mash fines in the boil. These two example are the extremes that would never happen in a typical brew day but have the most likelihood of producing a detectable difference.
The other variable is the amount of kettle trub that makes it into the fermenter (minimal/none vs ALL). The two boilers below both received fines from the mash. The top one shows how much trub was left behind for the "clean ferment" as opposed to it all be stirred in well for the dirty ferment in the bottom kettle. The difference between them represents how much more trub the "dirty fermeter" got.
The "matrix" part of this project is that two different variable can be compared for four total output beers. The fermenters were filled with wort with the following characteristics. Note "dirty boil" has the mash fines in it. "dirty ferment" has the post boil kettle trub in the fermenter. The clean ferment beers were chilled in the kettle with immersion chilling and allowed to settle for about an hour before the clearest wort was siphoned into the fermenter. The "dirty ferment" worts were done the same way except the kettle was stirred while the transfer happened.
#1 DBCF (Dirty Boil, Clean Ferment)
#2 DBDF (Both Dirty)
#3 CBCF (Both Clean)
#4 CBDF (Clean Boil, Dirty Ferment)
Note that each boil did get an appropriate dose of whirlfloc at the end of the boil. The samples below represent what went into the fermenters. The picture was taken right after the fermenters got tucked away into the fridge to hold at 66F.
So far, the most interesting part is how much faster the two "dirty" fermenters started fermenting. The picture below is 20 hours after pitching 3 grams of US-05 into each fermenter. The two on the right, with visible krausen are the ones with all the kettle trub. The two on the left are the ones with no kettle trub.
This brew day is looking at what effects and/or differences there may be if you get a LOT of the fine mash particles into your boil (cloudy wort runoff from the mash) and also if you get a lot of the post boil kettle trub into the fermenter.
This Cream Ale, derived from the book "Brewing Classic Styles" was mashed in my 15 gallon eBIAB rig, relatively soft water profile acid adjusted to a 5.39 mash pH. The grain was milled as fine as a two roller mill can handle, approximately .012" gap. The kettles that would be filled with very clear, fines-free wort came from the mash recirculation hose directly before the mash was ever disturbed. The kettles with mash fines were filled AFTER the BIAB was pulled, squeezed and the wort stirred well. A point to note is that the wort you'd get in a typical BIAB batch would have an average amount of mash fines in the boil. These two example are the extremes that would never happen in a typical brew day but have the most likelihood of producing a detectable difference.
The other variable is the amount of kettle trub that makes it into the fermenter (minimal/none vs ALL). The two boilers below both received fines from the mash. The top one shows how much trub was left behind for the "clean ferment" as opposed to it all be stirred in well for the dirty ferment in the bottom kettle. The difference between them represents how much more trub the "dirty fermeter" got.
The "matrix" part of this project is that two different variable can be compared for four total output beers. The fermenters were filled with wort with the following characteristics. Note "dirty boil" has the mash fines in it. "dirty ferment" has the post boil kettle trub in the fermenter. The clean ferment beers were chilled in the kettle with immersion chilling and allowed to settle for about an hour before the clearest wort was siphoned into the fermenter. The "dirty ferment" worts were done the same way except the kettle was stirred while the transfer happened.
#1 DBCF (Dirty Boil, Clean Ferment)
#2 DBDF (Both Dirty)
#3 CBCF (Both Clean)
#4 CBDF (Clean Boil, Dirty Ferment)
Note that each boil did get an appropriate dose of whirlfloc at the end of the boil. The samples below represent what went into the fermenters. The picture was taken right after the fermenters got tucked away into the fridge to hold at 66F.
So far, the most interesting part is how much faster the two "dirty" fermenters started fermenting. The picture below is 20 hours after pitching 3 grams of US-05 into each fermenter. The two on the right, with visible krausen are the ones with all the kettle trub. The two on the left are the ones with no kettle trub.
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