I'm brewing my first lager at the moment (using wyeast 2308) and have been able to keep the fermenter at a nice constant 14C inside a 100 can cooler. now i know i could drop that another few C with frozen bottles but am wondering if the benefit from the extra cooling will be outweighed by the more erradic temps?
lucas (who can't sleep, just got the lease on a new house with a huge shed... think of the brewing possibilities)
Hi lucas,
Out of curiosity, how big is the lager, SG-wise? Is it a pale or dark lager?
Wyeast 2308 (Munich Lager) has a reputation of being a bit of an unstable strain, but if this is fresh yeast and you used a decent sized starter, at least 1L of active yeast, it shouldn't be a problem. It may get a bit weird if you add a small starter of stressed 2308 and expect it to ferment cleanly and that's why I asked about the SG of the wort. 2308 is well known to produce plenty of sulphur at low temps, which to me is a good sign of proper lager fermentation with this strain. BTW, the sulphur is easily scrubbed out over time - and that's another good reason to lager the beer at around 1C for at least 2 months.
Brewing lagers at higher temps does raise the risk of adding esters to the beer, as has been pointed out, but the production of esters tends to peak late in the attenuative phase, after the growth or adaptive phase has concluded. This is one reason why there are many brewers who pitch the lager yeast at warm temps and then drag down the fermentation temp slowly over the first 48 hours, with no apparent ester presence in the finished beer.
Steve Alexander on the US based home brewing digest PM'd me some points on warm lager yeast pitching some time ago, and made a particular point that is worth noting/quoting:
Steve Alexander said:
My biggest concern is that the yeast can only form UFA lipids during the early aerobic period and they form less at higher temps. With less UFA the yeast may have stress problems (stuck fermentation, poor hi-grav performance) and will generally produce more fusels late than hi-UFA yeasts. ((The UFA he's referring to is Unsaturated Fatty Acids))
So, there are benefits to be had in getting strong aerobic growth happening in the early adaptive stage, but it's offset by lower UFA levels that may increase final fusel levels, even with a lower temp ferment, later on...
If I assume that the initial aerobic growth phase is over and the wort is actively attenuating, I'd agree with adding some more frozen bottles to get the temp down a few degrees.
The point about the difference in apparent temps on the outside of the fermenter, compared to the core temp is also worth noting. If you can, get a probe that you can immerse through an o-ring in the fermenter lid and you'll be working on a much more accurate actual wort temp reading.
Cheers,
TL
