There are a few Instructables out there on how to create stills for various purposes. Usually these include a large amount of small diameter, flexible copper refrigerator tubing. While these stills can be quite effective, there is just something a little hokey about them. Especially the part where you run a large amount of expensive copper tubing through a bucket of standing water to cool the condensate. Then there's the issue of a high surface area on the interior of the tubing, which makes small volume distillations difficult to impossible. Plus they're bulky, unwieldy, and they look like a meth lab. I do have to give the authors of these projects some credit however, since DIY is typically about getting the job done, form follows function, etc etc. BUT...
I say there is a better way.
By using a small amount of 1/2" and 3/4" copper pipe, it is possible to build a lightweight, compact, collapsible, interchangeable, universal distillation apparatus for anything you could possibly hope to distill. The apparatus featured here is capable of efficient low to medium volume distillations and could in principle be scaled for use in high volume applications. It is constructed from relatively inexpensive parts which are available at any hardware store.
UPDATE 10/27/2011: If you find the start-up costs for this project to be prohibitive, I recommend this instructable.
I was inspired to build a distillation apparatus during an organic chemistry lab where we were required to identify an unknown organic solvent by IR spectroscopy. The samples they gave use weren't pure and we had to distill them first so the IR machine could get a good spectrum. This apparatus is modeled after the one I used in that lab. In the lab the apparatus was made of lab quality glassware. Since I don't know how to work with glass, and I DO have experience remodeling houses, I decided to combine my experiences to make an affordable, clean, safe, glass alternative distillation apparatus.
So. Now I've got your attention. Read on, my friend.
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Signing UpStep 1: Safety, Legality, and Disclaimer.
Ugh. I really hate this part. Can't I just ask you guys to be smart and leave it at that? Ok, here we go!
SAFETY:
This project requires the use of tools and equipment that may be HAZARDOUS if handled improperly. Soldering of copper pipe requires the use of an open propane flame that can cause severe burns and fires. Never point a propane jet at anyone or leave one unattended for any period of time. HOT metal looks like COLD metal.
Distillation is a method of separating liquids that are in solution together, often as a form of purification. However, only proper, professional testing can positively identify the constituents of a given distillate. If you are purifying comestibles, DRINK AT YOUR OWN RISK.
UPDATE 10/27/2011:
DO NOT use lead solder.
DO NOT use this to distill hydrogen peroxide or any other potentially explosive chemical.
DO NOT allow blockages to form in the distillation pot outlets.
DO NOT use radioactive materials as fractionating column filler.
RESEARCH aluminum and decide for yourself whether it poses any danger.
LEGALITY:
In my own backwards country where the vestiges of prohibition are still rampant, it's illegal to manufacture certain distillates without a permit for the still in question. We'll just leave it at that. I don't think it's a problem to distill anything else, but I haven't checked so don't take my word for it. If you're in a country that allows it, then I highly suggest the HomeDistiller where you will find the finer points of ethanol production described in beautiful detail. The same principles apply to ethanol used for fuel, but as mentioned in the comments section, a still must still be registered to distill fuel. Still.
UPDATE 10/28/2011:
Please visit TTBgov for more information about US law regarding the use of a distillation apparatus. Basically, they make it impossible for a regular person to distill liquor. Producing fuel ethanol is somewhat do-able. All other distillations are ok.
DISCLAIMER:
This Instructable is provided for entertainment only and should not be used as a source of official information by anyone. Any and all damages incurred by the implementation of the information in this publication are the sole responsibility of the end user.
SAFETY:
This project requires the use of tools and equipment that may be HAZARDOUS if handled improperly. Soldering of copper pipe requires the use of an open propane flame that can cause severe burns and fires. Never point a propane jet at anyone or leave one unattended for any period of time. HOT metal looks like COLD metal.
Distillation is a method of separating liquids that are in solution together, often as a form of purification. However, only proper, professional testing can positively identify the constituents of a given distillate. If you are purifying comestibles, DRINK AT YOUR OWN RISK.
UPDATE 10/27/2011:
DO NOT use lead solder.
DO NOT use this to distill hydrogen peroxide or any other potentially explosive chemical.
DO NOT allow blockages to form in the distillation pot outlets.
DO NOT use radioactive materials as fractionating column filler.
RESEARCH aluminum and decide for yourself whether it poses any danger.
LEGALITY:
In my own backwards country where the vestiges of prohibition are still rampant, it's illegal to manufacture certain distillates without a permit for the still in question. We'll just leave it at that. I don't think it's a problem to distill anything else, but I haven't checked so don't take my word for it. If you're in a country that allows it, then I highly suggest the HomeDistiller where you will find the finer points of ethanol production described in beautiful detail. The same principles apply to ethanol used for fuel, but as mentioned in the comments section, a still must still be registered to distill fuel. Still.
UPDATE 10/28/2011:
Please visit TTBgov for more information about US law regarding the use of a distillation apparatus. Basically, they make it impossible for a regular person to distill liquor. Producing fuel ethanol is somewhat do-able. All other distillations are ok.
DISCLAIMER:
This Instructable is provided for entertainment only and should not be used as a source of official information by anyone. Any and all damages incurred by the implementation of the information in this publication are the sole responsibility of the end user.
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good post clears up my problem.
I understand most of your design but am having trouble with the thermometer. were is the sensor located.is it in the column above the packing. I'm just not sure.
http://www.ebay.com/itm/LCD-Type-K-Digital-Thermometer-TM-902C-2-Thermocouple-Probe-/190579208001?pt=LH_DefaultDomain_0&hash=item2c5f67ef41
The probe should be positioned to read the temperature of the vapor right where the vapor travels through the T section on its way to the condenser. Don't let the probe touch the column packing or the side of the column, and be sure the probe is sticking through the stopper, not with the tip inside the rubber. It should be measuring the vapor temperature only.
Nice looking fractional pot still, I would have tried to find 304 or 316 stainless for it because of the pain in the ass cleaning of copper after each run or you get opper sulphate in it and then you go blind, but keep the copper scrubbers because if theres no copper at all there will be an unpleasant rotten egg smell
Looks like your running it a bit to fast, to get a purer spirit it should be about 80 deg c - for a pot still might be a bit higher but not to close to 100c
Nice job in the soldering make sure it's lead free solder or you will get led poisoning without a gun involved hahahaha but seriously it's no laugthing matter
Heres my setup
All glassware and fits to a modified 50 litre keg
I found this from a chemestry supply store for $250... do you mean that glasss would be safer to use... and are you saying coppy plays a role in filtration?
"If you want a clean-looking joint (no solder blobs), quickly (before the solder solidifies) brush the exterior of the joint with the flux brush AWAY FROM YOUR FACE. This will remove the majority of the exterior solder drippage."
I'll try it next time I plumb, for whatever reason!
interest. It is illegal to do any distillation at home for any purpose
unless you buy a distillation permit from the government to
"distill fuel." The information that I gathered was, In Illinois it cost
$3600.00 for a permit for fuel distillation for one (1) year. No
individual is allowed to distill spirits for their personal or any other
use. You can make beer and wine to your hearts content, but distillation
will end in trouble. The main reasoning that was given was the government
claims that you will get lead poising. They think the public is still
using car radiator to use as a condenser.
There is too much profit from the taxes collected from the sale of the spirits.
A great portion of that revenue would be lost, So the government spreads the
false story about getting lead poisoning if you distill your own.
We have come a great distance since prohibition and World War II, but the
government wants to keep us there. Locked in that period's frame of mindset.
Lead poisoning could happen, if you use lead xDDD
Prohibition in distilling is only for money, gov money, big companies money. As many other things, they are not interested in you know the procedures but as information flows then it's better forbidden some activities.
There is a risk in distilling but i think it's not much more than cooking with the pressure pot (a real one with the valve).
I'm interested in this instructable just for essences (herbal essences).
Nice job :D
adamant about no one distilling. Home breweries for beer and wine are okay
because you are fermenting, zero tolerance on distilling.
http://www.sciencemadness.org/talk/viewthread.php?tid=8709
People do get away with copper stills all the time by avoiding hotspots, even commercially, but it is risky.
http://en.wikipedia.org/wiki/Quickfit_apparatus
- expensive but very good and lasts. Before quickfit we used to use glass tubing and corks.
In industry potable liquids including wine, beer and spirits are processed through stainless steel. When I was a teenager I made a water purification still from aluminium. The tank eventually corroded but it provided many years of service.
At least that is what I have been lead to believe.
When copper is used in alcoholic beverage industrial stills care is taken to ensure that no hot spots occur that could cause the reduction of alcohol to aldehyde. The small trace of copper introduced into alcohol during contact at low temperature is usually low enough that drinkers are not at much risk.
Yeast doesn't produce significant sulfides during fermentation, though often H2S is used to destroy wild yeasts in the ingredients before the introduction of the yeast culture. Sulfides are pretty toxic to yeasts. The low pH of the must would make the formation of copper / sulphide compounds unlikely, most trace sulfides end up as gaseous H2S and leave the system.
^they sell malt, yeast, and pretty much everything needed to brew your own beer/wine (or illegal liquor)
I wound the tubing using a lathe, onto a mandrel, and needed to work quickly before the water thawed.
Worked very well. It flattened out a little, but had nice flow afterwards. Easy cleanup. Run it long and cut the crimped ends off.
We don't use it so much on this side of the pond any more.
3/4 inch pipe has been replaced by 22mm and 1/2 inch by 15mm.
Ugh, engineering taught in feet and inches ?
Ouch! So many icky constants in the conversions from one unit type to another.
So glad there are decent units in there too.
Good luck
i'm using a PVC pipe for the outer tube and using steel epoxy for connecting it. Also, instead of the pressure cooker i'm using a paint can that'll pop it's lid instead of blowing up.
hope it works.
"Something." Uh-huh. ;-)