I purchased one of these chillers and hope I can use it to distill and not have to drag out garden hoses. Please keep me posted on how to do this . Thanks, Dubb
If you have an electric still and want to know if one of these chiller will work, take the power of your heater element in watts, and multiply by 3.41 and that will give you the BTU/hr rating you would need for a chiller. For instance, a reflux still with a 120 volt 1500 watt water heater element running at 100% element will need a 1500*3.41 = 5115 BTU/hr rating. Essentially the chiller needs to pull all the energy out of the still that the heat source puts in. If you have only the current draw rating of the chiller (which some don't publish the BTU/hrs) then take the current I in Amps multiply by voltage source in Volts and multiply that by COP rating which conservatively would be 2.5 for any chiller, then multiply by 3.41, V*I*COP*3.41 = BTU/hr.
Lord I've been preaching this for months... Like, dude, spend the money you saved on promo items on 2 wireless mics. Your UA-cam will blow up! Anyhow Phil, I love the videos, please fix the sound.
Hi, greetings from Argentina. Im looking for a water chiller and saw your video. I got a question and maybe you could help me. I got a reflux still with a 200 liter boiler heated with fire (24kcal) can This equipment work for me?
I purchased one of these chillers and hope I can use it to distill and not have to drag out garden hoses. Please keep me posted on how to do this . Thanks, Dubb
If you have an electric still and want to know if one of these chiller will work, take the power of your heater element in watts, and multiply by 3.41 and that will give you the BTU/hr rating you would need for a chiller. For instance, a reflux still with a 120 volt 1500 watt water heater element running at 100% element will need a 1500*3.41 = 5115 BTU/hr rating. Essentially the chiller needs to pull all the energy out of the still that the heat source puts in. If you have only the current draw rating of the chiller (which some don't publish the BTU/hrs) then take the current I in Amps multiply by voltage source in Volts and multiply that by COP rating which conservatively would be 2.5 for any chiller, then multiply by 3.41, V*I*COP*3.41 = BTU/hr.
Lower the chiller to floor you will have better results so water in tub is higher than chiller.
Is it worth?
If you use mic or fix sound problem you will shine in youtube 🤩
Lord I've been preaching this for months... Like, dude, spend the money you saved on promo items on 2 wireless mics. Your UA-cam will blow up!
Anyhow Phil, I love the videos, please fix the sound.
They are meant for a closed-loop system. You can make it work as you did but it's going to struggle with that much water.
I got mine to work like a charm
Hey did you get vevor chiller to work for you
Hi, greetings from Argentina. Im looking for a water chiller and saw your video. I got a question and maybe you could help me. I got a reflux still with a 200 liter boiler heated with fire (24kcal) can This equipment work for me?
I just sent back the vevor 3000 water chillitall it did for me was heat the water to 65+degrees didn't work at all !
I been thinking of getting about a chiller
Any update on this chiller?
How did this work out for you after some use?
I do no know i gave it to Big Eaze and he was supposed to test it out on a liebig but he never did.
@@philbillymoonshine7356
I fucking love your channel.. Vevor series shit is where it's at!
Looks to me like maybe to much hose? Trying to pull up hill to much. Wonder if you shorten up the hose some if it would help it ?
Hey did y'all hear about the queen
Diana won't let her in last I heard.