In that case we are in agreement. Someone has done the hard work of figuring out the appropriate oxygen requirements. Those requirements are non-negotiable and are dictated by biology. And yes, physics dictates other constraints, such as how much O2 you can keep in solution. Again, this is also non-negotiable, it's just going to happen.
The interesting part is to now come up with a good method for delivery. The established method that has been adequate is to add O2 gas in one big hit right at the start fermentation. At the homebrew scale, getting the right DO level is mainly guesswork when bubbling O2 gas through a bucket of wort at around 20C with a stone 50cm under the surface. Will 90 seconds give me 8ppm or 16ppm? I don't know and I don't think that reproducibility is very high either. That extra 1/4 turn on the regulator knob could make a big difference.
I've had a few goes at the H2O2 method and found that it wasn't making a significant improvement.
I've had fewer goes with the Brewman O2 gas through the stone. It had an apparent effect on the initial stages of fermentation and the end results were good. I would not go as far as saying that adding O2 took my beer to the next level. I think switching to big active starters was that step-up. I also made the mistake of pitching on top of a yeast cake from the previous batch AND adding O2 - massive overpitch, plus extra yeast growth. I guess I learned from my mistake there!
I've had one go with the electrical oxygenator so far. In terms of practicality it's no harder (perhaps a bit easier and more convenient) to use than the Brewman O2 kit. According to the chart, I should have ended up with the equivalent of 10ppm DO over a period of three hours. That was 48 hours ago. Looking at the fermenter now, I see healthy activity on par with what I have observed with the Brewman kit. I'll observe the progress of this fermentation and then for my next batch, I'll try to do a split side-by-side fermentation with both
@Brewman_ compressed O2 kit and
@Lyrebird_Cycles electrical oxygenator. I've got two 10L plastic containers that should fit in my fermentation fridge. As much as I dislike bottling, I'll bottle the two test batches so that I can perform sensory testing over a period of time.
Any suggestions for a simple ale recipe that would be good at identifying fermentation faults? Something like SMaSH with Gladfield pale malt to 1.060 and Mosaic to 30 IBU? In terms of yeast, I can either do a rehydrated packet of US-05 or an active starter of WLP002.
Another variable (that I haven't researched) might be the period over which yeast (or more correctly the fermentation) will benefit from having O2 supplied and at what concentration. For example, is 1 minute at 12ppm, followed by a natural decline better than 180 minutes at 8ppm followed by a natural decline?
