Lord Raja Goomba I
Prisoner of Sobriety
Finally got around to brewing my house AIPA, which is SWMBO favourite.
Trouble is, as I've mentioned on other topics, I don't reckon the 'hoppiness' qualitative factor is quite there, but the bitterness seems to be higher (perceived, I know) than is typical for this recipe (which is very much unchanged for several years). In Tassie, I had this same recipe feel less bitter and more hoppy punchy type flavour.
My very non-measured opinion is that the temp difference between here and Tassie means that no-chill stays above isomerisation temps longer in Qld due to the slower temp decline (or less gap between the wort temp and outside temp). This seems to be further reinforced by the fact that I could leave a no-chill cube overnight in Tassie and it would be at pitching temp in a shorter period of time (say "it was ready when I got out of bed", rather than midday or 1pm here).
So I decided to do a semi-scientific, semi-dark ages experiment. Given that 'hoppiness' in no-chilled IPA tends to be a very qualitative thing and we have educated guesses as to what the extra time gives us over chilled beers, this is probably in keeping with the slightly non-scientific manner of measuring no-chill variables at any rate.
It's basically a case of whacking the hops into the cube after a period of time has elapsed, to reduced the bitterness and increase the qualitative hop factors of IPA (aroma, flavour), so that the (generally anecdotally assigned) +20 minutes that no-chill adds to a hopping regime, can be adjusted down to +15 minutes or even possibly +ten.
So, assuming that the wort goes in at boiling (100 degrees C), and isomerisation is generally considered, from my reading to be around 79 degrees, I wanted to aim at 95 degree pitch.
Now, I know that cooling does not happen in a straight line, but in the absence of any research I've found that gives a calculation to get a 'line in the sand' moment, this is the best I can do.
So given that 95 degrees is 5 degrees of 21 degrees from 100 degrees to 79 (isomerisation ceases from literature reading), I back calculated the IBU to be a no-chill 70 IBU, which, using the formulate (isomerisation range - drop in temp) / isomerisation range * IBU, I calculate this to be 53 IBU. Ideal.
All other variables (hop variety, base malt, recipe, yeast) are the same. I want to see if I get more qualitative 'aroma' and 'flavour' that we normally associate with 'hoppiness'.
If this works (or the result is in the ballpark of where I think it might be), I can then hone a method (much like the housewives of 1660) that allows me to produce a fairly replicable and predictable result with hopping IPA using no chill but staggering the hop additions.
I'm also timing how long it takes to drop 5 degrees and I'll see if this needs to be tweaked depending on outside temp/season.
This is no brulosophy. It may give me a false positive, though I have a very harsh critic. It's only the stuff I can measure reasonably predictably not the 'whole picture'. But it will hopefully give me an idea of where to go.
Trouble is, as I've mentioned on other topics, I don't reckon the 'hoppiness' qualitative factor is quite there, but the bitterness seems to be higher (perceived, I know) than is typical for this recipe (which is very much unchanged for several years). In Tassie, I had this same recipe feel less bitter and more hoppy punchy type flavour.
My very non-measured opinion is that the temp difference between here and Tassie means that no-chill stays above isomerisation temps longer in Qld due to the slower temp decline (or less gap between the wort temp and outside temp). This seems to be further reinforced by the fact that I could leave a no-chill cube overnight in Tassie and it would be at pitching temp in a shorter period of time (say "it was ready when I got out of bed", rather than midday or 1pm here).
So I decided to do a semi-scientific, semi-dark ages experiment. Given that 'hoppiness' in no-chilled IPA tends to be a very qualitative thing and we have educated guesses as to what the extra time gives us over chilled beers, this is probably in keeping with the slightly non-scientific manner of measuring no-chill variables at any rate.
It's basically a case of whacking the hops into the cube after a period of time has elapsed, to reduced the bitterness and increase the qualitative hop factors of IPA (aroma, flavour), so that the (generally anecdotally assigned) +20 minutes that no-chill adds to a hopping regime, can be adjusted down to +15 minutes or even possibly +ten.
So, assuming that the wort goes in at boiling (100 degrees C), and isomerisation is generally considered, from my reading to be around 79 degrees, I wanted to aim at 95 degree pitch.
Now, I know that cooling does not happen in a straight line, but in the absence of any research I've found that gives a calculation to get a 'line in the sand' moment, this is the best I can do.
So given that 95 degrees is 5 degrees of 21 degrees from 100 degrees to 79 (isomerisation ceases from literature reading), I back calculated the IBU to be a no-chill 70 IBU, which, using the formulate (isomerisation range - drop in temp) / isomerisation range * IBU, I calculate this to be 53 IBU. Ideal.
All other variables (hop variety, base malt, recipe, yeast) are the same. I want to see if I get more qualitative 'aroma' and 'flavour' that we normally associate with 'hoppiness'.
If this works (or the result is in the ballpark of where I think it might be), I can then hone a method (much like the housewives of 1660) that allows me to produce a fairly replicable and predictable result with hopping IPA using no chill but staggering the hop additions.
I'm also timing how long it takes to drop 5 degrees and I'll see if this needs to be tweaked depending on outside temp/season.
This is no brulosophy. It may give me a false positive, though I have a very harsh critic. It's only the stuff I can measure reasonably predictably not the 'whole picture'. But it will hopefully give me an idea of where to go.
