Back to the OP, this sounds like oxidation. I think we all agree. Try and reduce oxygen at every step post fermentation, I hope some of this discussion has proven useful. Again none of these are smoking guns, you can make great beer with/without any of this, but I think any/all of these will help reduce oxygen which should make a more stable product.
1. Quick fermentations (9-12 days in primary for most healthy ferments) that will keep those whirl pool aromas and flavors alive. Letting your beer sit in primary at 70F for 3 weeks is going to undo all that hard work.
2. Moving beer from primary to keg
If your good with auto siphons then scratch the spigot idea, but I for one suck. Purge all kegs before and after filling. I personally don't like cold crashing, especially if you transfer the beer cold, ie. colder liquids hold more gas, ie. oxygen will absorb more readily. The suck back via the airlock is also real and will diffuse oxygen into the headspace (none of this bull**** c02 is more heavy then air, I guess in NYC you would pass out if you laid down on the floor due to all that heavy c02). I only cold crash in kegs which can be purged and fed c02 as chilling creates a vacuum.
3. Dry Hopping
Dry hopping towards the end of primary will reduce any oxygen in the hop pellets or leaf. The yeast will actually uptake the oxygen and also transform some of the hop compounds into good aromas. For my bigger beers the second round in the keg via bag also has more more live yeast then a cold crashed beer to protect against some oxygen. If you had cold crashed, transferred cold, added more hops, the colder beer as it warms up will begin to oxidize for sure.
4. Post Dry Hopping
Keep the beer as cold as possible. If the keg is opened for any reason, re purge the headspace 4x at 15psi.
You have 4 parts other stuff (mostly N2), and 1 part air at atmospheric pressure, approximate to 15 PSI. If you put 30 PSI on the keg, you have added 2 times the stuff, or 10 more parts. So the gas mix is 1/15 O2. Vent and repeat 2 more times.
You will have reduced to 1/(15^3), and that comes out to 0.00029 parts O2 left, which is pretty small.
I you want to use 15 PSI, you do it 3 times you are at 0.001 parts left.
4 times at 15 PSI gets you to 0.0001.
^^^ People call me crazy, but this math works out.
Some other links of people who agree,
http://www.bertusbrewery.com/2014/12/micro-pale-ale-30.html
"I dry hopped this directly in the primary while there was still some yeast activity. I'm starting to find that minimizing oxidation outweighs hop/yeast contact. This is pretty much the reverse from what my mindset was a couple years ago. For my IPAs and DIPAs, I still rack the beer into a keg to dry hop, but for low gravity IPAs and Pale Ales, I'm dry hopping in the primary to take advantage of the oxygen-scavenging properties of active yeast. Anyway, the dry hops went in day 6, and I chilled the primary and kegged the beer on day 13."
http://www.bear-flavored.com/2014/09/how-i-dry-hop-my-ipas-with-no-oxygen.html
Here's the basic theory behind this: oxygen is very bad for hops. When I was bottling my IPAs, no matter how good the recipe or how well-managed the fermentation, they would always drop off very, very quickly. The better you can prevent O2 from infiltrating your beer, the better chance the hop character has to preserve its awesomeness
Brew on OP, and check back with us after a few more batches, I think you will be back on the Hop Bus to Hop City.
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