Haha, seems like I'm posting everywhere on this forum. That's what I get for starting out with AG brewing and assembling all of my equipment myself!
I was very impatient last night and decided to coil my 50' of copper tubing for my immersion chiller. The coils were fine, but as you all know... bending 1/2" copper in a 90 degree is nearly impossible without a tool... or at least if you don't want any kinks
I tried anyways, and got a few kinks (they could be worse, but luckily I reacted quickly to the kinking). I was wondering if it was worth it to try and bend/shape it out, if I should just cut off from the kink, buy a tool, and do it properly, or just leave it alone.
I'm in my third year of chemical engineering (chill, I'm in Canada so I'm legal!), and as I'm sure quite a few of you are mechanical/chemical engineering, I'm sure some of you know of Bernoulli's equation. Essentially, it would follow from applying this equation to the system, that the kink will have no effect on the flow of water. If we view the system as two points, one being the inlet conditions of the water entering the chiller, and the other being the exit, kinks should have no effect on the flow of water. However, Locally it should affect it, by increasing the water velocity, but immediately after it should slow down again... the conclusion I'm drawing here is essentially... it shouldn't matter, shouldn't it? (Of course the kink would have a higher coefficient than a smooth bend, and would increase the turbulence, but these would contribute to an essentially negligible increase in friction loss).
What do you guys think? Is it really a cause of worry? I could understand in a CFC it would be a problem if the kink was in the wort lines (build up of nasties), but it doesn't seem like a problem to me since this is an IC.
Any input would be much appreciated!
I was very impatient last night and decided to coil my 50' of copper tubing for my immersion chiller. The coils were fine, but as you all know... bending 1/2" copper in a 90 degree is nearly impossible without a tool... or at least if you don't want any kinks
I tried anyways, and got a few kinks (they could be worse, but luckily I reacted quickly to the kinking). I was wondering if it was worth it to try and bend/shape it out, if I should just cut off from the kink, buy a tool, and do it properly, or just leave it alone.
I'm in my third year of chemical engineering (chill, I'm in Canada so I'm legal!), and as I'm sure quite a few of you are mechanical/chemical engineering, I'm sure some of you know of Bernoulli's equation. Essentially, it would follow from applying this equation to the system, that the kink will have no effect on the flow of water. If we view the system as two points, one being the inlet conditions of the water entering the chiller, and the other being the exit, kinks should have no effect on the flow of water. However, Locally it should affect it, by increasing the water velocity, but immediately after it should slow down again... the conclusion I'm drawing here is essentially... it shouldn't matter, shouldn't it? (Of course the kink would have a higher coefficient than a smooth bend, and would increase the turbulence, but these would contribute to an essentially negligible increase in friction loss).
What do you guys think? Is it really a cause of worry? I could understand in a CFC it would be a problem if the kink was in the wort lines (build up of nasties), but it doesn't seem like a problem to me since this is an IC.
Any input would be much appreciated!
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. First, let me clarify the Bernoulli's equation:
