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- Mar 3, 2021
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Hi - I've had the fermenter for some time but have only recently acquired the glycol chiller. I've been making the Malt Miller's "What Even is a Beer Style?" kit (What even is a beer style? | The Malt Miller), which is a cross between a lager and a NEIPA using Omega Lutra OYL-071 Kweik yeast, 5kg grain (including oats) and 127g dry hop.
I've fermented it out, hit the desired FG, dry hopped (no hop socks) and then cold crashed ready for kegging. For cold crashing I connected the glycol chiller and set the temperature on the conical fermenter to 4 deg C (the lowest it will go). Now I only left it cold crashing for just under 24 hours before kegging, which may not have been long enough with hindsight, but it had been at c.14 deg C for a few days before that for the dry hop. However, when kegging the beer was fairly free of debris but the flow rate was horrifically slow and once the keg was about 12 litres full (out of a 23 litre batch) it gradually ground to a halt. I had a look in the fermenter and the beer seemed to have quite a lot of hop/yeast matter floating in it still, which must have gradually blocked up the valve. Anyway, I decided to reblanket the fermenter headspace with CO2 and continue the cold crash as an experiment to see what happens. It's still going.
Any particular tips on where I might be going wrong? Will cold crashing for longer make a difference? I was hoping to be able to find a way to make dry hopped beers using this set up that doesn't involve putting the hop pellets in socks or some other container that limits their contact with the beer. But it does seem a very tall order. Would be interested to see if anyone is having more success than me in getting all the particulate matter to settle out below the level from which .
One other question regarding the glycol chiller - do people leave the cooling hoses connected to the chiller between uses to keep the glycol in the system? Or is it easy enough to take them off without losing too much glycol, given the hoses are just pushed onto barbs on the back of the chiller?
I've fermented it out, hit the desired FG, dry hopped (no hop socks) and then cold crashed ready for kegging. For cold crashing I connected the glycol chiller and set the temperature on the conical fermenter to 4 deg C (the lowest it will go). Now I only left it cold crashing for just under 24 hours before kegging, which may not have been long enough with hindsight, but it had been at c.14 deg C for a few days before that for the dry hop. However, when kegging the beer was fairly free of debris but the flow rate was horrifically slow and once the keg was about 12 litres full (out of a 23 litre batch) it gradually ground to a halt. I had a look in the fermenter and the beer seemed to have quite a lot of hop/yeast matter floating in it still, which must have gradually blocked up the valve. Anyway, I decided to reblanket the fermenter headspace with CO2 and continue the cold crash as an experiment to see what happens. It's still going.
Any particular tips on where I might be going wrong? Will cold crashing for longer make a difference? I was hoping to be able to find a way to make dry hopped beers using this set up that doesn't involve putting the hop pellets in socks or some other container that limits their contact with the beer. But it does seem a very tall order. Would be interested to see if anyone is having more success than me in getting all the particulate matter to settle out below the level from which .
One other question regarding the glycol chiller - do people leave the cooling hoses connected to the chiller between uses to keep the glycol in the system? Or is it easy enough to take them off without losing too much glycol, given the hoses are just pushed onto barbs on the back of the chiller?
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