Posts tagged ‘keg conversion’
I got the notice that a package was waiting for me at the apartment office just after they closed on Friday so I had to wait until Saturday morning to tear into it, but damn was it a beautiful sight! Now I’m the proud owner of a 40lb 15G brewpot. 🙂
I did a test fill/drain on it with 5G of warmish water and it seals really well. It looks like some siphoning will be needed to get the last little bit, but that’s no big deal.
After the 15G brewpot setup is complete with the burner setup and mash tun, the next step will be a ginormous steel fermenter like this bad boy:
So my buddy Mike wanted a boil kettle, and since New Belgium practically gives away old kegs, I hooked him up. I also converted it for him, since I had the experience of a couple I converted for myself. Without further ado, here is the process:
First off, materials:
- $10-$100….1 old keg
- $24-37……..1 weldless brass or stainless steel spigot (depending on how you roll, honestly it doesn’t make much of a practical difference, but some would argue)
- $6…………….a short section of 1/2″ copper tubing
- $1…………….a female threaded copper coupling (1/2″ Copper to 1/2″ MIP – to match the threads on the spigot)
- $1…………….a 90 degree elbow (1/2″ copper)
- a 7/8″ hole saw (better yet would be a step bit)
- a propane torch along with flux and lead-free solder for welding the copper
- an angle grinder and appropriate metal-cutting blades (plan on using at least two per keg)
- a drill
If your keg is still sealed (you cannot see into the keg from the top looking down), there’s a great youtube video by Bobby M with instructions on popping out the stem at the end or by clicking here.
After the stem is removed, it’s time to cut the top off of the keg. First, I gave a good rinse to get any sloshing beer out and then just filled it up a bit with water (just to cover the bottom) to hopefully cool down any flying shards of metal that land inside and keep them from sticking to the bottom. I found the best way to do the actual cutting is to butt your angle grinder right up to the side of the keg and use that as your guide. Last time I drew a circle and tried to follow it, but I ended up with a bunch of straight limes (think hexagon) insted of a circle. Here’s a visual:
If you watch the video at the end (Brewing with Bobby M), he makes a fancy jig just for this function, and I would recommend that if you are a real neat freak, but I got a pretty solid circle just by tracing the outside.
After the top is off, you need to sand the edges until you get all of the sharp points nice and rounded so you don’t lose a finger in your beer. I started with just emery cloth but ended up getting a grinding stone attachment for my drill, that sped things up quite a bit. You could also just use the grinder to smooth it out, but I found I didn’t have the degree of accuracy I wanted doing it this way. Sand until you are confident it is child safe – not a dumb test.
So the top is beautiful and you aren’t going to die when you touch it. Now you need the hole for the spigot on the inside. I measured up 4 1/4″ from the bottom, just to match the last one I did. I have yet to find a standard measurement.
SIDENOTE: I want you to stop at this point and think hard about exactly where you want the spigot. I centered it between the two handles on the top, which I think was a good call. The other part of this is if you are going to install a temperature gauge on the keg as well, think about your setup and where you want it to be. Most people just install the temperature dial directly above the spigot, but I installed mine to the side just because I wanted it to be low enough to pick up a temperature on relatively small batches. I wish that I would have installed the dial on my sparge tank 90º from the spigot. That way, I would have the spigot to the side (aimed directly at the mash tun) and the dial straight ahead so I wouldn’t have to lean over the mash tun to see the temperature.
Here’s where I’m going to drill the hole:
EXPLODING KEGS: You’ll notice above that on the bottom collar there is a hole there for drainage. If your keg does not have those, make sure to drill some on the bottom, otherwise you risk gas buildup and the eventual exploding keg.
After drilling the hole, again you need to sand it down so that it is not sharp. This is important because you will be putting an o-ring against this hole, and you don’t want it getting torn up.
That’s about it for the hard parts. The only other thing to do is to make the copper ‘L’ piece to go inside that goes from the inside of the spigot to the bottom of the keg to drain all the way to the bottom. This is just simple copper soldering. Cut your tubing the length you want it and then sand the edges to clean them (inside and out). Then put some flux all around the outside of the tubing and stick it in the fitting. Finally, heat up the fitting until the solder melts on contact to the copper (not directly in the flame). Make sure the solder fills all the way around the tube.
That’s basically all there is to it, it only took about 1 1/2 or 2 hours start to finish. It’s really easy and the best way to get into a 5 gallon or even 10 gallon boil with the addition of a propane burner.
APPENDIX – Using Your Brewpot:
- a copper dish scrubber (find it at the grocery store)
- teflon tape (in the plumbing section of the hardware store for a buck)
- a stainless steel spoon, around 2 feet. Find a cheap one here.
After making the brewpot, you want to prep all the threads by putting teflon tape on all male threads ($0.99 at hardware stores). This will keep the threads from leaking: then put it all together in this order:
The spigot goes handle-side outside the brewpot, the threaded end through the hole in the keg (if you can’t figure that much out, you’re in trouble). On the inside, you’ll put on the O-ring, then the stainless steel washer, and finally the female threaded coupler. Coming out from that you will want the copper fitting you have soldered together screwed on, ending up facing down toward the bottom of the keg. It will look like this:
Next time you’re at the store, pick up a copper dish scrubber. This will act as a screen for all the hops and trub (sidenote: it is pronounced ‘troob’) at the end of the boil. put this around the bottom of the copper ‘L’ fitting. When you get the scrubber, it has a hole right in the middle that is not very conducive to this project. Simply unroll the mesh and you will get something that looks like this and can be folded up and used as an effective screen:
I recommend using a hop bag as well, to make sure you don’t get any clogs. There’s a great video for that:
You may think it’s overkill having two filters, but let me tell you – there is NOTHING worse than brewing all day, drinking a few homebrews on the way, getting tired, finishing the boil and opening your spigot to…nothing. I have had a couple clogged screens and that was enough.
Next you’ll want to test the setup for leaks, and while doing it, mark gallons as follows. Add water 1 gallon at a time (or 1/2 gallon at a time if you want to be more precise). At each point, mark on your metal spoon (and on the brew pot if you like) at the water level. This allows you to measure how much liquid you have left, allowing you to know when you get to your 5.5 gallon mark or whatever you are aiming for.
Now you’re ready to boil the beer! After the beer has boiled it’s course (60-180 minutes), you need to drain it out and cool it down before you pitch the yeast. The easiest way to accomplish this is to put your immersion chiller in the wort for the last 15-20 minutes of the boil to sanitize it, then chill it right in the brewpot. But, if you can’t get a water source to your propane setup like me, you’ll have to drain it into a bucket, take the bucket to where you have water access and then cool it there. If you are going to cool it in the brewpot, do that. If not, just keep reading.
Now before you drain the beer, it is best to create a whirlpool to get all of the hops and trub to the middle of the brewpot. Simply stir the wort in a circular motion getting it going as fast as you can, then let it sit for 10-15 minutes. After that, drain it through your already installed copper screen, and you will minimize the sediment that gets to the primary. This is why you put the copper ‘L’ drain on the side, and not into the middle. You won’t need to siphon because all that’ll be left is sediment. You’ll lose a little liquid, but not enough to make a fuss over. Just make sure to boil a little extra to make up for it. After you drain it, if you have not done so, cool it to yeast temperatures and pitch your yeast. If you are draining the beer while it is still hot (without cooling to yeast temperatures), you will need to use special heat resistant tubing, not just the nylon stuff you use for syphoning. You’re local homebrew store should have it.
It’s even easier once you get a pump and a counterflow or plate chiller. Then you just attach a hose from the spigot to the pump to the chiller to the fermenter, turn on the water and watch the magic work!
There you are! Enjoy using your brew pot (or as the cool people say, your keggle).
Other Good Links:
So I got my keg yesterday and was so excited that I went straight to Lowes (after my free samples at New Belgium and a stop at Hops and Berries, of course) to get some supplies. I picked up three metal cutting blades for my angle grinder, two skinny cutting types and one fat for smoothing it all out, and also a 7/8 drill bit for my spigot. I was worried this would be a tough job, hence the three blades. I wasn’t even sure my drill bit would get through (it was the only 7/8 bit I could find, it was a Lenox bi-metal metal/wood cutting hole saw). But I worried for nothing. It was a piece of cake.
I looked up how other people had went about this task, and I got some good information from a couple places. Eric’s Brewing has good information on the process, as does Ronblog. There is even a set of YouTube videos by Yuri_Rage of homebrewtalk.com: part 1, part 2, and part 3 that are of some value although they move pretty slow. I also just found a cool jig Bobby M made in this video. Now, on to the process.
First, I put the cutting blade on the angle grinder and fired it up to see how it worked. I made a test cut on the inside of the top and to my suprise, it cut like butter. After I found that out, I just cut a series of straight cuts around the outside of the keg (guided by a circle I drew so that it would come out somewhat straight). After that, I switched to the thicker grinding blade and went to work rounding everything out and getting rid of any sharp points. It’s a little harder than I expected as far as this part goes, and I think that I will go get some fine sandpaper to finish off the job. Just 20 minutes after I started, I had a keg with a nice big opening in the top for some future brewing sessions
The next thing to do was to clean all the metal shards out of the keg. This turned out to be more laborious than expected. I don’t have access to a hose, so it was me, the kitchen sink, and a huge keg on the counter. I ended up mostly wiping it out with paper towels to get the metal shards out. I think maybe the bathtub would have been a better option.
Lastly, I needed to drill a hole for the weldless spigot I bought at Hops and Berries. By the way, this thing cost me $36, more than twice what I paid for the keg itself. 😦 So I marked out the midpiont between the two handles on top, and marked up about an inch from the bottom. I then traced the spigot and marked its center point. Then I sat on the keg to give it stability, and started drilling into it. I used a little water/dishsoap mixture to try to keep the operation cool. It was really no problem betting through. I still need to sand the edges around that, and then I will just screw on the assembly, and I’ll have a finished brew kettle.
The biggest problem is that my budget is quickly running out, and I don’t have a propane burner. So for the time being, I have an awesome keg, but no way to use it. Hopefully some funds will come my way soon.