I don’t have one myself but have read several threads on the forum regarding this type of tap and the gas set up required to get them to operate. A recent thread on here got my brain diving off at a tangent and landing here!
As I understand it, this “pub-style” tap was intended to be used with casks that were vented to the atmosphere. As the cask would be emptied in a pub setting pretty quickly there were no concerns about oxidation. However, for the homebrewer that’s more of an issue, hence the need for a CO2 feed.....or is it?
I conducted a recent Xbeeriment using a mylar balloon inside a King Keg pressure barrel to pressurise the contents for dispensing. My thinking being mylar is a pretty stable material, can be sanitised easily, and a deflated balloon takes up hardly any space but can be inflated easily to occupy significantly more space. The Xbeeriment was a success(ish).
So my second Xbeeriment was to fill a plastic barrel with water, mod the top to allow the connection of one of my CO2 mylar balloons but have it venting to atmosphere,
sqidge the balloon into the barrel
and tighten the lid down.
Turn the tap on and..
.....no suprise the water flowed out of the tap. Placing a thumb over the balloon vent in the cap quickly brought the flow to a halt indicating the balloon was keeping the pressure inside the barrel at atmospheric.
Conclusion? Any CO2 generated in the barrel during “carbonation” would stay in the barrel (providing there are no leaks) and no additional CO2 would be needed during the consumption of the beer. The only downside the I identified was getting the inflated balloon out of the barrel! Fortunately I had a lilo pump that sucks as well as blow so was able to deflate the balloon to extract it. I’m sure there could be other problems but as I don’t have a hand pull pump I can’t test the idea properly.
Could it be of interest?
As I understand it, this “pub-style” tap was intended to be used with casks that were vented to the atmosphere. As the cask would be emptied in a pub setting pretty quickly there were no concerns about oxidation. However, for the homebrewer that’s more of an issue, hence the need for a CO2 feed.....or is it?
I conducted a recent Xbeeriment using a mylar balloon inside a King Keg pressure barrel to pressurise the contents for dispensing. My thinking being mylar is a pretty stable material, can be sanitised easily, and a deflated balloon takes up hardly any space but can be inflated easily to occupy significantly more space. The Xbeeriment was a success(ish).
So my second Xbeeriment was to fill a plastic barrel with water, mod the top to allow the connection of one of my CO2 mylar balloons but have it venting to atmosphere,
sqidge the balloon into the barrel
and tighten the lid down.
Turn the tap on and..
.....no suprise the water flowed out of the tap. Placing a thumb over the balloon vent in the cap quickly brought the flow to a halt indicating the balloon was keeping the pressure inside the barrel at atmospheric.
Conclusion? Any CO2 generated in the barrel during “carbonation” would stay in the barrel (providing there are no leaks) and no additional CO2 would be needed during the consumption of the beer. The only downside the I identified was getting the inflated balloon out of the barrel! Fortunately I had a lilo pump that sucks as well as blow so was able to deflate the balloon to extract it. I’m sure there could be other problems but as I don’t have a hand pull pump I can’t test the idea properly.
Could it be of interest?
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! They move lots of beer considerable distances, but we don't need that as homebrewers. What they don't do is replace the beer leaving the container with anything "safe" (like CO
. I have my keg on the floor and FV in my brew fridge that is on a table so gravity works.
