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How To Make A Homemade Copper Moonshine Still?

Are there any good recipes for moonshine still?

  • I promised delicious recipes to accompany the moonshine still plans. This is one of those recipes. If you’re someone who prefers a fruitier flavor in their moonshine, this could be for you. Instead of fermenting corn, you make a mash from watermelon. From there, it’s distilled and makes a delicious and beautiful drink.

Contents

Is copper good for distilling?

Copper is the preferred material in the construction of a still to impart flavor into the distilled spirits. According to Broadslab Distillery, both stainless steel and copper are excellent conductors of heat: dispersing the heat evenly across the entire surface of the metal and creating a more even distillation.

How thick does copper have to be for a still?

You will need the following Materials and Tools:

  1. Half Sheet of Copper – 3 ft by 4 ft ( use 18 gauge copper) Amazon has some reasonable priced copper sheets.
  2. Roll of Solder – Try to get hold of a roll of 95/5 tin/silver is the best and stay away from anything with cadmium/antimony or lead in it.

What type of copper is used for moonshine still?

2″ copper pipe, type M, for Moonshine Still Reflux or Pot Column.

Is it legal to own a copper still?

It’s perfectly legal to own a still, and you can even use it, as long as you’re not making alcohol – so, you can make essential oils without a permit, or perfume, or distilled water. The government cites several reasons for keeping distilling illegal.

How long will a copper still last?

These unwanted and flavor-changing sulfur compounds are chemically removed from the final product resulting in a smoother, better-tasting drink. All copper stills will require repairs about every eight years due to the precipitation of copper-sulfur compounds.

Do you have to use copper for a moonshine still?

As I mentioned above, copper is a vital component when you’re distilling spirits. However, your entire still doesn’t have to be made out of copper in order to get the sulfur-eliminating benefits. You can go with a stainless steel still and also use copper in your column packing.

What is the best gauge of copper for a still?

The smaller the gauge, the thicker it is. The most common is 16 Gauge or 48 ounce copper Kitchen sinks, bathroom sinks and bath tubs made of 16 gauge copper will not scratch or dent easily, and are very durable. You will also want to make sure your copper does not have added lead mixed in to the copper.

Is 16oz copper thicker than 20oz?

Yes, overall, 20 oz copper is obviously thicker and feels more durable. Ultimately, as you will discover with some diligent searching, we are offering the best value in the Copper Still industry.

Can you distill vodka at home?

Vodka is a neutral spirit that is usually not aged and can be made from grains, potatoes, sugars, and fruits that are fermented to produce alcohol. Home brewers should take extreme caution during the distilling process to discard the methanol, which can be fatal if consumed.

What type of still is best for whiskey?

Copper is definitely the better choice for products like Bourbon, Tennessee Whiskey, Irish Whiskey, Scotch, and traditional Rum, because of the sulfur reduction, as mentioned above. These spirits are also most commonly distilled in pot stills (no reflux), which allows for lots of flavor to come through from the wash.

Can you make moonshine for personal use?

Today, people make artisan moonshine out of a sense of nostalgia and preference for taste. These can be sold in liquor stores or brewed just for personal use. However, distilling alcohol at home, even for personal use, is illegal under federal law. These produced legal moonshine for sale and distribution.

Can you make moonshine at home?

While most states prohibit home moonshining, state laws sometimes conflict with federal law. But federal law trumps state law, and to the feds, distilling at home for personal consumption is illegal, period.

What states allow home distilling?

This tax is built into every bottle of spirits you buy so it’s not a special tax on home made spirits. If you do the calculations, you’ll find your favourite spirits cost up to 90% less when you take the tax off.

10 DIY Moonshine Still Plans (and 6 Moonshine Recipes to Try)

If you purchase an item after clicking on one of the links on this page, we may receive a commission. Commissions have no impact on the content of our editorial pages. See the full disclosure for more information. How intriguing do you feel the art of moonshining to be? Have you ever been curious in how moonshiners create their delectable stills and tasty finished products? So, I’m going to share with you some of the possibilities available on the internet for moonshine still layouts and ideas, as well as a few moonshine recipes.

If you don’t, you might find yourself in significant legal difficulties.

  1. To keep this in mind, here’s the information you’ve been seeking for if you’re interested in learning more about the art of moonshining:

1. How Moonshine Works

Detailed instructions on how to manufacture moonshine are provided in this page, which also explains the procedure in detail. This illustration will provide you a broad understanding of how a still may be put together in order to make the product, albeit it is not as comprehensive as some other ideas.

2. Historical Moonshine Stills

Do you like learning about the history of moonshining? Hopefully, you’ll find this information useful. It displays vintage moonshine stills for a variety of alcoholic beverages, including whiskey. To witness what the old-timers did to create their product is a fascinating experience. You can also see how the stills differed depending on whether you were manufacturing whiskey, vodka, rum, or gin, as well as the type of spirit you were making. Each one required a significant amount of expertise to complete the manufacturing process successfully.

3. Popcorn Sutton’s Moonshine Still

  • Is the history of moonshining something you’re interested in learning more about?
  • This article will pique your attention.
  • There are many varieties of whiskey stills on display, as well as historical moonshine stills.
  • Discovering how the old-timers made their goods is a fascinating experience.
  • The stills differed depending on whether you were manufacturing whiskey, vodka, or rum.
  • You can also see how the stills differed depending on what you were making.
  • Each one required a significant amount of expertise to complete the manufacturing process.

4. The Reflux Still

Do you have an interest in the history of moonshining? This article will be of interest to you. It displays vintage moonshine stills for a variety of alcoholic beverages. To see what the old-timers utilized to manufacture their product is intriguing. You can also observe how the stills differed depending on whether you were manufacturing whiskey, vodka, rum, or gin, among other things. Each one required a significant amount of expertise to complete the production process.

5. The Pressure Cooker Rum Distillery

Are you a fan of rum? If you answered yes, you’ll adore the concept of this home-made dessert even more. It is prepared using a pressure cooker.

Despite the fact that the specifics are focused on how to manufacture rum, the numerous photographs taken during the process provide an excellent representation of how the still is constructed. It appears to be a simple and effective DIY solution for generating homemade beverages.

6. Thumper and Slobber Boxes

Whether you like rum or not, If you answered yes, you’ll adore the concept of this home-made dessert even further. Pressure cooker is employed in this recipe. Despite the fact that the information is mostly focused on how to create rum, the numerous photographs taken along the process provide an excellent representation of the still-making procedure. DIYing homemade beverages appears to be a fun and easy project.

7. Easy DIY Still

  1. Do you like rum?
  2. If you answered yes, you’ll like the concept of this DIY still.
  3. It is made with a pressure cooker.
  4. Despite the fact that the information is mostly focused on how to create rum, the numerous photographs taken along the procedure provide an excellent representation of the still-making process.
  5. It appears to be a simple and effective DIY method for creating homemade beverages.

8. Copper Pot Distiller

It is not everyone who sees a still wants to make one for himself or herself. You might be interested in this copper pot, which is still available for purchase on eBay.com if you fall into the above group. This is a beautiful still that would attract the attention of anybody who came to your distillery to have a look. If you’re looking for a more refined choice, this may be the solution you’ve been looking for.

9. Tabletop Moonshine Still

It is not everyone who sees a still wants to make one for themselves. This copper pot is still available for purchase on eBay.com if you fall into this group. A beautiful still that would draw the attention of anybody who came to your distillery to have a look at it. This might be the solution you’ve been looking for if you want something a little more refined.

10. Pan Still

  1. If you’re thinking in learning how to manufacture your own beverages, you might be daunted by some of the more complex still designs available.
  2. This design, on the other hand, is suitable for beginners.
  3. The layout is straightforward.
  4. The top portion contains a pan, the center piece contains a collector, and the bottom section contains the mash.
  5. Easy to set up, and it looks to be user-friendly in appearance.

Something Different: The Solar Still

Some people have their own still, which they use to distill their own water. If this is the reason you’d like to have a still, this is an excellent choice for you to consider. However, if you’d prefer to concentrate your efforts on making your home even more self-sufficient, a solar system would be a good choice. Using this guide, you will learn all you need to know about building the ultimate solar still.

Bonus Section: Moonshine Recipes

I promised tasty recipes to go along with the moonshine still blueprints. I kept my word. This is an example of one of such recipes. For those who prefer a fruitier flavor in their moonshine, this may be the perfect choice for you. Instead of fermenting corn, you produce a mash out of watermelon, which is delicious. A tasty and visually appealing drink results from this distillation process. Furthermore, a video will guide you through the procedure.

2. Dandelion Moonshine

Most likely you were unaware that the troublesome weeds in your front yard could be transformed into a delectable adult beverage, but it’s true. The following recipe will guide you through the process of creating dandelion wine in a still..

They demonstrate how to age the wine and even how to incorporate a small amount of honey into the mix for a richer flavor. If you enjoy making do with what you have to make anything you want or need, you’ll appreciate this recipe.

3. Peach Moonshine

  • Despite the fact that many people enjoy conventional corn whiskey, many others want to have a little variety in their whiskey’s flavor profile.
  • This is the point at which fruit-flavored moonshines begin to gain popularity.
  • It is possible to make a nice flavored drink out of peaches that may be enjoyed on hot summer nights.

4. Honey Moonshine

When it comes to making moonshine, you’ll find that most people prefer to adhere to traditional methods or those that use high-quality ingredients from the land. Sweet honey, on the other hand, is one of the most authentically “homegrown” foods available. It’s possible that this recipe will satisfy your need for a honey-based beverage. If so, read on.

5. Apple Pie Moonshine

When it comes to making moonshine, you’ll find that most people prefer to adhere to traditional formulas or those that use high-quality ingredients sourced from the countryside. Nothing says “homegrown” quite like a delicious honeycomb infusion. It’s possible that this recipe can satisfy your need for a honey-based beverage. If so, read on..

6. Corn Whiskey Recipe

  • Consider the following scenario: you appreciate the traditional flavor of moonshine and you possess all of the necessary qualifications to make your own spirits.
  • This is the recipe you’ve been looking for.
  • It’s for a corn whiskey in the classic way.
  • Consider giving it a go and seeing what you think.
  • You are not permitted to purchase moonshine in the future.
  • You now have a variety of various options for still images, as well as a few fascinating recipes to choose from!
  • If nothing else, you’ll acquire a better understanding of how much effort the generations before us put into creating something that is now considered commonplace.
You might be interested:  Why Is My Apple Pie Moonshine Cloudy?

Was this article helpful?

Consider the following scenario: you appreciate the traditional flavor of moonshine and you possess all of the necessary qualifications to make your own spirits. 1. Fortunately, you’ve come to the right place! A classic type corn whiskey is the subject of this proposal. Make an experiment of it and observe how it affects you. No more moonshine will be purchased by you. – As a result, you now have a variety of various alternatives for still images, as well as a few fascinating recipes to experiment with!

Why Build a Still?

There are a variety of reasons why someone would desire to possess a still. First and foremost, distillation equipment is an essential component of survival equipment. Simple, small-scale distillation equipment may be utilized to produce critical survival commodities such as filtered water, fuel alcohol, disinfectant, and other essentials in an emergency situation. This means that, apart from having the potential to save your life in a SHTF situation, these items might also be used to barter for other products and services.

  • Fuel alcohol can be beneficial in a variety of scenarios other than survival emergencies.

Another typical use for our equipment is the distillation of essential oils.

Because our equipment is far too tiny for commercial distillers to employ for production runs, it is unlikely that they would use it for that purpose.

  • This greatly minimizes the amount of time and money spent on research and development of new prospective items.

A basic pot still with an additional column, which may be filled with packing material to promote natural reflux, is included with this model.

Safety equipment and tools include the following: It will take the following equipment and supplies in order to construct a copper still:hammer, plumbing torch, tiny clamps, sandpaper, lead-free solder and water-soluble flux; work gloves; safety glasses; and an airborne vapor-phase oxygen (VOA) mask.

  • Wear the safety glasses the whole time you’re working, and gloves whenever you’re handling material or using the torch.

Always work in an area that is adequately ventilated.

“Tabs” are carved into one of the long ends of the boiler, which is a rectangular piece of copper with tabs on one end.

  • Tin snips can be used to cut little “triangles” into one of the long sides of the copper if you’re constructing your own parts from scratch.

To complete the process, bend the tabs toward the main portion of the boiler at a right angle to the main section of the boiler with a pair of pliers at an angle of 45 degrees.

Rolling the sheet into a cylinder once the tabs have been cut and bent is as simple as bending the copper in such a way that the short ends of the rectangle overlap one another.

  1. Make a slit in the copper approximately half an inch wide.

This will make it easier to eventually fill the seam with solder once it has been sanded.

If you’re making your own still components, you’ll need to invest in a few solid copper rivets to finish the job.

  1. The rivets are included in the clawhammer kits, and the boiler has rivet holes that have already been pre-drilled.

Make sure they fit firmly into the rivet holes, then place a hard item behind the rivet to prevent it from falling out (anvil, hammer, etc.).

Do not squish the rivet flat with your fingers.

  1. Repeat the procedure for all of the remaining rivets in the set.

It will most likely take on the shape of an oval.

Following the soldering process, which we’ll cover next, you’ll need to turn the boiler.

  1. Use a regular propane plumbing torch to seal the entire seam of the boiler, as well as the rivet penetrations, with standard lead-free plumbing solder once the flux has been applied and dried.

To put it another way, if you have an adjustable torch, turn the heat down to medium-low setting.

The formation of soot on the copper as a result of excessive heating will prevent solder from attaching to the copper.

  • Make the boiler as completely round as you can using your hands.

Use a wire brush or sandpaper to rough up the outer half-inch of the circular bottom, as well as the tops of the tabs (if you haven’t already done so) to give it a more rustic appearance.

Then, when the boiler bottom piece has been installed, apply more flux to the top of the circular piece and the nearby boiler wall – this is a critical phase in the process.

  1. Work the soldering torch from the outside of the boiler inwards while adding solder to the interior of the boiler while soldering the bottom.

When laid flat, the cone resembles a “C” shaped chunk of copper.

Make use of sandpaper or a wire brush to finish the job.

  1. Once the vapor cone has been soldered, it should be shaped by hand to ensure that it is as spherical as possible.

Then, with the boiler upside down, insert the open end of the pipe into the big aperture of the pipe.

An anvil, cinder block, or even a 5 pound weight from a weight bench can be used for this purpose quite well.

  1. Step 3: Put on a collar Now that the vapor cone has been secured to the boiler, it is necessary to connect a collar to the inside of the vapor cone’s tiny end on the interior of the boiler.

Construct the collar such that it fits snugly inside the vapor cone, then solder it into place inside the vapor cone.

Finished Cap Skirt and Plate (Step 4) The cap skit is a slightly tapered piece of copper that attaches to the bottom of the column assembly, allowing it to fit snugly into the collar of the vapor cone when it is in the closed position.

  • Following its formation, it is securely soldered to a cap plate, which is a copper donut that is somewhat thicker (15 gauge).

Please keep in mind that the cap skirt and collar are not soldered together.

Step 5: Column and Condenser Installation The pieces for the column and condenser are the most straightforward to assemble during the assembly procedure.

  • A 12″ x 12″ reducer, as well as two 90-degree street elbows, will be mounted on the column’s top.

This condenser is made up of two 34″ x 12″ x 12″ tees, a piece of 34″ pipe that connects the tees, and a 1″ pipe that runs all the way through the tees and into the 34″ connection.

A drip arm should be attached to a 45-degree elbow that is installed at the bottom of the 12″ tubing length.

  • To assemble, just clean and apply flux to each component before soldering them together.

Parts for 1, 5, and 10 gallon stills, on the other hand, are also available for purchase on our website.

Learn How To Make A Still At Home

Would you be interested in learning how to create a still? Take a look at this DIY water purification method and consider it. LINKED: 37 Insanely Simple DIY Projects For Complete Beginners

How to Make a Still at Home

  • What if I told you that you could learn how to produce stills for yourself?
  • The following DIY water purification method should be read and considered: IN CONNECTION WITH: 37 Insanely Simple DIY Projects For Beginners

Supplies for Making a DIY Still

  • Cooking thermometer
  • Teflon tape
  • Hot glue gun with high-temperature hot glue sticks
  • Metal file
  • 3/8-inch to 3/8-inch compression adapter (found in the plumbing section)
  • 20-foot refrigerator coil (when using the still, you need to keep whatever you’re cooking warm)
  • Ice
  • A stove or other consistent heat source (when using the still you need to keep whatever you’re cooking warm)
  • A 5 gallon bucket
  • Drill
  • 1/8 inch drill bit
  • 3/8 inch drill bit

Step 1: Drill a 1/8-inch Hole on the Aluminum Pot

To make things simpler, place the lid atop a scrap piece of wood and drill a hole a few inches back from the edge of the lid. The Suteck 5 Gal. Alcohol Still Spirits Kit (18L Water Alcohol Distiller Copper Tube Boiler Home Brewing Kit with Thumper Keg Stainless Steel) is a home brewing kit that includes a copper tube boiler.

    • • Alcohol stills upgrading with thumper keg – full distillation equipment, suited for beginners or experienced distillers, easy to handle and install
    • • Material and Construction – safe and durable construction
    • • Dimensions and Weight – reasonable This product is constructed of non-toxic red copper and stainless steel materials, and there is NO lead in any of the components.

All of the components are made of food-grade materials, and the fermenter has been carefully thickened.

(Dimensions: capacity: 5 Gallons / 18L

  • Height: 11.8inch
  • Diameter: 12.8inch.) Upgrade with three pots and a thumper keg, which is ideal for incorporating tastes into your product!

    1. Our Alcohol Still can be used for a variety of purposes, including seawater distillation, steam distillation, and alcohol distillation.

    You may manufacture a variety of products in the stills, depending on your preferences, including alcohol, ethanol, whiskey, water distillation, winemaking, essential oils, hydrosol, and more

  • 100% MONEY-BACK GUARANTEE, free components swapped!

    Please keep in mind that the distiller’s emblem is the brand “seeutek,” as shown in the photograph.

    Step 2: Wrap the Thermometer with Teflon Tape

    • To begin with, we were merely going to wrap the thermometer with Teflon tape to make an airtight seal, but we quickly realized that we needed to fix it even more firmly in place with some hot glue (rated for high temps).
    • Most of the time, you could probably get away with applying hot glue at the end of the day and skipping the Teflon.

    Step 3: Place the Thermometer in the Hole

    Make sure your cooking thermometer is properly inserted through the opening so that it is flush with the top of the lid.

    Step 4: Secure the Thermometer with Hot Glue

    Make sure your cooking thermometer is properly inserted through the opening so that it rests nice and flush on the lid’s top.

    Step 5: Drill a 3/8-inch hole in the Pot Lid

    1. Make another 1/8-inch hole in the lid to start the process.
    2. This will serve as a starting hole for the much larger 3/8 inch drill bit that will be used later.
    3. Place it across the lid in a position that is roughly opposite the thermometer.
    4. Using the 3/8 inch drill bit, drill a hole in the wall 3/8 inch deep.
    5. The ugly burrs are difficult to notice, but they must be removed using a file.

    Step 6: File as Needed

    Make another 1/8-inch hole in the lid to start the process off. This will serve as a beginning hole for the much larger 3/8-inch drill bit that will be used later in the procedure. Place it over the top of the lid, roughly opposite the thermometer. The 3/8 inch drill bit should be used to drill a 3/8 inch hole. It’s difficult to notice the noxious burrs, but they must be removed using a file.

    Step 7: Insert a Compression Fitting into the Lid

    By twisting it through from the bottom of the lid, insert the male threaded nut of the compression fitting into the hole in the lid’s bottom. It’s likely that the fit will be imperfect, so don’t be concerned if it jiggles around a little. IN CONNECTION WITH: How To Make A Water Filter

    Step 8: Seal the Fitting with Hot Glue

    1. This seal must be completely airtight in order to prevent steam from escaping through it.
    2. It’s time to get out the old reliable glue gun once more!
    3. Make sure to use hot glue on the opposite side as well, working it in around the seams as you go along.

    Step 9: Attach the Copper Coil to the Lid

    Place the female-threaded nut that comes with the compression fitting over one end of the refrigerator coil and tighten it down with your fingers. It is included with this end of your compression fitting is a piece of hardware known as a “ferrule.” It’s a little circular ring with a hole in the center that appears similar to a grommet.

    In order to ensure a secure connection between the female and male ends of your compression nut, the ferrule is used. Attach the female-threaded nut to the male-threaded nut that is protruding from the lid with the male-threaded nut.

    Step 10: Drill a 3/8-inch Hole in the Bucket

    Place the female-threaded nut that comes with the compression fitting over one end of the refrigerator coil and tighten it with your compression fitting wrench. Associated with this end of your compression fitting is something known as a “ferrule.” In appearance, it is a tiny circular ring with a grommet-like appearance. In order to provide a secure connection between the female and male ends of your compression nut, the ferrule should be used. Attach the female-threaded nut to the male-threaded nut that is protruding from the lid with the male-threaded nut on the lid.

    Step 11: Insert Second Compression Fitting into the Bucket

    1. Place the female-threaded nut that comes with the compression fitting over one end of the refrigerator coil and tighten it down.
    2. This end of your compression fitting is equipped with a component known as a “ferrule.
    3. ” It’s a little circular ring that has a grommet-like appearance.
    4. The ferrule aids in the creation of a tight connection between the female and male ends of your compression nut’s female and male ends.
    5. Attach the female-threaded nut to the male-threaded nut that is protruding from the lid by screwing them together.

    Step 12: Make the Seal Watertight with the Hot Glue Gun

    Similar to how you did it with the lid, use the glue to secure this guy in place nice and snug.

    Step 13: Tighten the Refrigerator Coil if Needed

    Seal this person in with the adhesive in the same manner as you did with the lid to keep him in place.

    Step 14: Attach the Coil to the Bucket

    1. Place the second female-threaded nut over the coil on the opposite end of the coil and insert a ferrule into the nut’s female threads.
    2. Place this end of the coil into the bucket and thread the female nut onto the male nut that is protruding into the bucket from the exterior of the bucket to complete the installation.
    3. Your basic do-it-yourself project is now complete.
    4. We tied a bungee cord over the top of ours because the pot we used doesn’t lock down, which made it simpler to carry in the first place.

    Notes on Use: This still should not be used to distill alcoholic beverages.

    The boiling point of methanol is lower than that of alcohol, therefore if you are distilling alcohol, the early section of your distillate will include a high proportion of methanol in comparison to the rest.

    1. In addition to being referred to as “wood alcohol,” it is also colorless, volatile, and combustible since it is manufactured from wood.

    It will kill you if consumed in excessive quantities.

    If you were distilling salt water into potable water, for example, the boiling point of water is 212 °, so you would put the salt water in a pot and bring the water to a boil, keeping the heat source at a level that maintained a thermometer reading of 212 °.

    Step 15: Add Ice

    • Okay, you don’t require quite as much as this: However, you will need to cool the gases that are produced in this still in order for them to condense back into liquid.
    • When it comes to testing, ice is the most convenient option, and you only actually need a little bag if you’re utilizing a bucket as we did.
    • Other methods include constructing a closed system with your bucket so that the gas cannot escape;
    • but, in the interest of preventing someone from potentially blowing themselves up with compressed methanol, our attorneys advised us to leave that step out of the process.

    Continue to look for more inspiration for your own creation.

    The materials necessary for this project, not to mention the drilling and sealing that will be required, appear to be fairly extensive, but this project appears to be achievable and will be enjoyable.

    1. Do you think you’ll be able to complete the project on your own now that you’ve learned how to construct a still?

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    DIY Projects is in desperate need of all you crafty DIYaddicts! If you would like to write for us, please click here. Don’t forget to follow us on Facebook, Twitter, and Instagram to keep up with the latest news! Note from the editor: This piece was first published on May 9, 2014, however it has been modified for quality and relevancy to reflect current events.

    Traditional Kentucky Whiskey Pot Still Plans – Learn How To Build A Pot Still At Home – Learn to Moonshine

    1. DIY Projects requires the assistance of all crafty DIYers.
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    5. Editorial note: This item was first published on May 9, 2014, and has been revised to ensure that it remains of high quality and relevance.
    • A half sheet of copper measuring 3 feet by 4 feet (use 18 gauge copper) Copper sheets are available for purchase on Amazon at a reasonable price. Buy a roll of 95/5 tin/silver solder
    • Anything containing cadmium/antimony or lead should be avoided. The use of rivets made of stainless steel or copper is recommended. Copper tubing 1/4 inch in diameter – 8 feet should enough
    • 3/4″ copper pipe – 3 ft
    • 3/4″ brass connection (female and male ends)
    • 3/4″ copper pipe – 3 ft

    Tools and Equipment Necessary

    • Solder Gun (blow torch) with Mapp Gas
    • Rivet Gun
    • Tin Snips
    • File (for smoothing edges and burrs)
    • Hammer
    • Scissors
    • Tape
    • Pencil
    • Ruler
    • Compass
    • Pliers
    • Solder Gun with Mapp Gas
    • Rivet Gun with Mapp Gas

    Step by Step Instructions to Build thePot Still

    1. Step 1 – On your sheet of copper, you will need to trace the arrangement outlined in red.
    2. To accomplish this, print the layout from the following pdf file: Template for a 6 gallon copper pot still Alternatively, if you want a larger still, the 12 Gallon Copper Pot Still Design Plan Template can be used.
    3. This download contains 28 sheets that should be printed and constructed to fit the 6 Gallon Still.
    4. The pages are the correct size for the still.
    5. In order to print at true size, make sure your printer is configured to do so.

    2.

    Measure and trace the forms onto your sheet of copper with a pencil, then cut out the shapes with your tin snips (optional).

    Making the Top and Bottom Pans for thePot Stilland Condensor
    • Step 1 – Begin with the bottom piece of the puzzle.
    • Using this method, you will get the bottom pan of the still.
    • Finding the center of the circle using a ruler and then with a compass are two methods of doing so.
    • Using the compass, trace around the perimeter of the pan.
    • This should be placed 1/2 inch from the edge of the table.
    • 2nd Step: With the help of a pair of pliers, form ruffles around all four corners of the sheet, following the scribed line as your guide.
    • To finish, hit the bottom edge of the ruffle with a flat body work hammer until it comes to a 90-degree bend (the flat body work hammer works best).

    Mapp gas, not propane, should be used.

    Start with one end of the pan and work your way around the whole edge.

    • In Step 5, get your hammer out again and rework the pan edge until it is perfectly 90 degrees in relation to the bottom of the pan.

    Step 7 – The bottom of the pan will distort somewhat as a result of heating; this can be readily flattened by hand or with a rubber mallet on a smooth, level surface with little difficulty.

    Here is a video that illustrates the construction of the Pan” alt=””>.

    Building theFrustum For the Pot Still

    • There are three frustums in this pot still design, which comprise the top, bottom, and cap frustums, all of which must be joined before the pot is complete.
    • Follow the procedures outlined below to do this (*Please note that you may alternatively construct the flake stand wall by following these steps): Step 1 – Let’s start with the frustum at the bottom of the page.
    • In the vice, secure a metal rod by squeezing it firmly;
    • we will use this to mold the copper sheet that we have cut out for the bottom frustum.

    This activity should begin to form an arc in the copper sheet as a result of the previous step.

    On the seam of the Frustum, you should have approximately a 12 inch overlap.

    • Step 3 – Remove the bottom pan and clamp the bottom of the frustum to the spot on the floor.

    The rivets should be spaced 1 inch apart on center over the full length of the seam.

    Check out this video, which demonstrates the steps involved in constructing the Frustum for the pot still.

    • Repeat the previous processes for the top and cap frustum, as well as for the collar.

    Assembling All The Parts

    It’s time to put everything together so that the pot will stay motionless. Start by taking the bottom pan and squeezing the bottom frustum into the pan. Step 2 – Secure the bottom pan with rivets. Step 3 – Repeat these procedures for the top pan and cap frustum (for more information, check the photographs). Fourth, insert the Lyne Arm through the hole you previously created in the top frustum and rivet it in place. Step 5 – Attach the collar to the top of the frustum. The top and bottom frustums of the pot still are assembled in this step.

    The next step is to solder everything together.

    • You have now completed the construction of the pot, but we have not yet constructed the worm or the stand.
    Building the Flake Stand and Worm for the Pot Still

    Insert the flake stand wall into the flake pan and rivet the flake pan and vertical seam together to secure it in place. Second, using 1/4″ copper tubing, coil it up so that it fits snugly inside the pan. Step 3 – Drill two holes for the 1/4″ copper worm to be used later. One at the top of the flake stand, where the worm enters, and one at the bottom, where it departs the stand. (It may be simpler to do this before it is put together. ) Using the Worm, carefully insert the worm inside of the Flake stand, making sure that the worm’s ends poke out through the holes that you just drilled.

    5.

    1. One will serve as the water outflow and the other will serve as the water intake.

    Insert 1/2-inch copper pipe into the holes and solder it into place.

    Solder a brass fitting to the inlet side of the worm using solder.

    • (For further information, check the photos below.
    • ) That, I believe, sums it up nicely!

    However, if you want to utilize this design to make a larger or smaller pot, you may change the size of the original template by using thisScaling Chart to change the size of the design.

    In the event that you decide to construct this pot still, I’d love to hear from you.

    • If you come up with a better approach to construct this, please share your findings with me!
  • OtherStill PlansYou May Like:

    1. A Complete Step-by-Step Guide for the Boka Reflux Still Plan.
      Create your own homemade reflux still at home with the best homemade reflux still.
      Simple Pot Still Design — This is an excellent experiment to get you started.

    How To Make A Moonshine Still Step-by-Step

    Learn how to create a moonshine still and why you’ll need one for usage at home or for survival, as well as the benefits of doing so. OTHER RELATED:19 “Old World” Primitive Survival Skills You’ll WISH You Knew Before the End of the World In this post, we will discuss:

    • Learn how to create a moonshine still and why you’ll need one for usage at home or for survival, as well as the benefits of doing so! WATCH: 19 “Old World” Primitive Survival Skills You’ll WISH You Knew Before The End Of The World This article contains the following information:

    How to Make a Moonshine Still Step-by-Step

    What is a Moonshine Still, and how does it work? With a moonshine still, you may distill liquid mixtures by heating them up and then cooling them down. This process separates or purifies the liquid by separating or purifying it through the vapor that is collected.

    Why Is a DIY Moonshine Still Worth Your Time?

    1. When it comes to booze, moonshine is the term used to describe liquor that was created when it was unlawful to do so.
    2. Consequently, a moonshine still will not only create distilled water but also whiskey, which can come in useful during a disaster or survival emergency.
    3. It doesn’t matter if you’re keeping your body warm or surviving the cold.
    4. Despite the fact that we designed this still apparatus with the process of purifying water in mind, it doesn’t hurt to know that it can also be used to produce high-proof liquor.

    What You Need for a Moonshine Still Construction:

    Moonshine is the name given to liquor that was manufactured during a time when doing so was forbidden. Consequently, a moonshine still will not only create distilled water but also whiskey, which can come in useful during a disaster or emergency circumstance. It doesn’t matter if you’re keeping your body warm or surviving the winter. It doesn’t hurt to know that this still equipment may also be used to manufacture high-proof liquor, as we designed it with the process of purifying water in mind when we built it.

    • Cooking thermometer
    • Teflon Tape
    • Hot glue gun with high-temperature hot glue sticks
    • Metal File
    • 3/8-inch to 3/8-inch compression adaptor (available in the plumbing area)
    • 20-foot refrigerator coil (we used a tamale steamer from a business that rhymes with Target…DOH! )
    • 5-gallon bucket
      Ice
    • A stove or other steady heat source (when using the still, you must ensure that whatever you are boiling remains at a consistent temperature throughout)

    Homemade Moonshine Still Directions

    Now, let’s get this moonshine still working, for real this time!

    Step 1: Start with the Cover

    1. Using your drill, drill a 1/8-inch hole into the lid of the metal pot that will house your still.
    2. To make things simpler, place the lid atop a scrap piece of wood and drill a hole a few inches back from the edge of the lid.

    Step 2: Prepare Thermometer

    Teflon tape should be used to secure the thermometer. As a first step, we were simply going to wrap the thermometer with Teflon tape to establish an airtight seal. However, we felt that some hot glue would be a good addition to further fix this item in place (rated for high temps). Most of the time, you can get away with just applying hot glue at the end of the day and skipping the Teflon altogether.

    Step 3: Set Up Cover and Thermometer

    Using Teflon tape, seal the thermometer. As a first step, we were going to simply wrap the thermometer with Teflon tape to establish an airtight seal. With the use of hot glue, however, we were able to further fix the object in place (rated for high temps). By the end of the day, you can probably get away with just using hot glue and foregoing the Teflon altogether.

    Step 4. Secure Thermometer

    • Hot glue should be used to hold the thermometer in place.
    • For those who are concerned that hot glue is a poor choice for this project (since it will be in close contact with hot steam), it is crucial to know that high-temperature hot glue sticks have a melting point that is significantly higher than the melting point of water (100 degrees Celsius).
    • This is also true for the melting point of “other liquids” (78 °C), which is also true for water.
    • There are a variety of alternative adhesives available, including high-temperature silicone and even high-temperature resins.

    THERE’S MORE ON THIS:Winter Survival |

    Step 5: Drill Another Hole

    Make a 3/8-inch hole in the lid of the pot. Make another 1/8-inch hole in the lid to start the process. This will serve as a starting hole for the much larger 3/8 inch drill bit that will be used later. Place it across the lid in a position that is roughly opposite the thermometer. Using the 3/8 inch drill bit, drill a hole in the wall 3/8 inch deep.

    Step 6: File

    1. The pot cover should have a 3/8-inch hole.
    2. Make another 1/8-inch hole in the lid to start the process off.
    3. This will serve as a beginning hole for the much larger 3/8-inch drill bit that will be used later in the procedure.
    4. Place it over the top of the lid, roughly opposite the thermometer.
    5. The 3/8 inch drill bit should be used to drill a 3/8 inch hole.

    Step 7: Set Up Compression Fitting

    Compression fittings should be installed in the lid of the still. By twisting it through from the bottom of the lid, insert the male threaded nut of the compression fitting into the hole in the lid’s bottom. It’s likely that the fit will be imperfect, so don’t be concerned if it jiggles around a little.

    Step 8: Seal Fitting

    Hot glue should be used to secure the fitting. This seal must be completely airtight in order to prevent steam from escaping through it. It’s time to get out the old reliable glue gun once more! Make sure to use hot glue on the opposite side as well, working it in around the seams as you go along.

    Step 9: Attach the Copper Coil to the Lid

    • Hot glue is used to seal the fitting.
    • For steam to not escape through this barrier, it must be completely airtight.
    • This means it’s time to bring out the old faithful glue gun once more!
    • It is important to use hot glue on both sides of the seams and to apply it well around them.

    Step 10: Drill a Hole into the Bucket

    Drill a 3/8-inch hole in the bucket with a drill bit. Start by drilling a pilot hole in the 5-gallon bucket using a 1/8-inch drill bit. Place it about two inches above the base of the plant. A 3/8-inch drill bit should be used to drill a 3/8-inch hole where the pilot hole was.

    Step 11: Insert Second Compression Fitting

    The second compression fitting should be placed into the bucket. Using a male-threaded nut from the other compression fitting, screw it into place in the bucket.

    Step 12: Make the Seal Watertight

    1. Using the hot glue gun, make the seal completely waterproof.
    2. Seal this man with glue, just like you did with the lid.
    3. Make sure it is well sealed.

    Step 13: Tighten Refrigerator Coil

    Tighten the refrigerator coil if it is necessary. If your coil is presently too large to fit snugly in whichever bucket you are using, you will want to shut down the coils before continuing with your project. Make use of anything cylindrical to assist you in reshaping it, such as this coffee cup that may be found in the kitchen. Just about any cylindrical form will suffice for this purpose. Work slowly and carefully so that you don’t damage your tubing, pulling down on the coil rings to compress the system until it is the proper size.

    Look over to DIY Projects for more information on this project and the whole set of instructions!

    • A DIY version will still take a significant amount of supplies, but having one on hand will be quite beneficial in a variety of situations.

    Let us know what you think in the comments section below!

    • Tighten the refrigerator coil if it’s necessary to. To begin, you should shut down the coils if they are currently too large to fit snugly into whichever bucket you are using. Reshape it with the aid of anything cylindrical, such as this coffee cup that can be retrieved from the refrigerator. Just about any cylindrical form will suffice for this assignment. Work slowly and carefully so that you don’t damage your tubing, pulling down on the coil rings to compress the system until it is the correct size.

      • Look over at DIY Projects for more information on this project, as well as complete directions!

      A handmade will still take a significant amount of supplies, but having one on hand will undoubtedly come in handy in a variety of circumstances.

      Your opinions are welcome below in the comments section.

      1. Tighten the refrigerator coil if necessary.
      2. To begin, you should shut down the coils if they are currently too large to fit snugly in whichever bucket you are using.
      3. Make use of anything cylindrical to assist you in reshaping it, such as this coffee cup from the kitchen.
      4. Anything with a cylindrical form will suffice for this purpose.
      5. Work slowly and carefully so that you don’t damage your tubing, pulling down on the coil rings to compress the system until it fits.
      6. Finally, attach the coil to the bucket to complete your home-made moonshine still.

      Jake Foster has created a full video lesson on how to construct a moonshine still, which you can view below: Now that you know how to construct your own moonshine still, you’ll have a backup plan in case your water heating options run out.

      Are you considering constructing your own moonshine still?

      • Following that, we’ll go on to the next step.

      How To Make A Moonshine Still: Where To Begin And What You’ll Need

      You should have learnt a few intriguing facts about moonshine by now and have a basic idea of what moonshine is, how it’s created, and where it’s legal to consume it. It’s impossible for me not to think of Granny Clampett and her jug labeled “XXX” from the 1960s television sitcomThe Beverly Hillbillies whenever the word “still” comes to mind. While it was amusing, it offered a rather stereotyped, and not necessarily realistic, portrayal of rural residents from Appalachia. However ridiculous the show’s premise, brewing moonshine was unquestionably a favorite pastime in the Clampetts’ household, regardless of how campy the show’s premise was.

      But where do you even begin?

      Why Is It Called a Still?

      1. The word’still’ is an abbreviation for the word “distiller,” which refers to the device that drives the distillation process.
      2. The Adobe AcrobatTM software featured a component called theAcrobat Distiller that converted postscript files into PDFs from 1993 to 2013.
      3. This stated that the conversion process may be compared to the purifying of a product by distillation, which is comparable to the method used to make moonshine and other spirits.
      4. Distillation is the process of extracting a pure product from a less refined one by the use of a heating and cooling procedure.

      During an emergency case, stills may also be utilized to convert salt water into potable drinking water.

      This separation occurs because the boiling point of alcohol (173.1 degrees F) is lower than that of water, and it is the first component of the mash combination to boil off when the mixture warms up.

      How to get started making your still

      1. In the distillation process, the word’still’ is a short form of the word “distiller.
      2. ” The Adobe AcrobatTM software employed a component called theAcrobat Distiller to convert postscript files into PDFs between 1993 and 2013.
      3. According to this, the conversion process might be compared to the purifying of a product by distillation, which is comparable to the method used to make moonshine and other spirits.
      4. Using a heating and cooling process, distillation is the process of separating a pure product from a more refined one.

      During an emergency case, stills may also be utilized to convert salt water into potable water.

      This separation occurs because the boiling point of alcohol (173.1 degrees F) is lower than that of water, and it is the first component of the mash combination to boil away as the mixture warms up.

      Let’s Start With the Ingredients

      1. In this project, you’ll be creating a “pot” still, which is comprised of three fundamental components: In addition to being known as a kettle, vat, or boiler, this huge pot is used to cook the mash.
      2. Water jacket type condenser – A container of water and ice used to collect and chill the ensuing alcohol steam, which is used to extract the alcohol from the mash.
      3. 3.
      4. A distillation column 3.
      5. A jar or other glass vessel that will hold the alcohol once it has been distilled.

      Here is a basic list of what you need to build your moonshine still:

      • A pot made of stainless steel or copper with a cover You may use a pressure cooker or a stainless-steel stockpot with a cover for this recipe. Whatever you choose, just make sure it’s big enough to hold the quantity of mash you’re going to be making. It is necessary to have an airtight seal on the lid in order to prevent the water from escaping. Because the lid of a pressure cooker is already self-sealing, it is an excellent choice for cooking. You’ll want to make use of an outdated unit that is no longer suitable for culinary purposes.

        Alternately, you may use flour putty to seal the top of the container.

        1. Then, using your clips, bungee cords, or weights, secure the dough coil around the rim of the lid to seal it.

        The bucket may even be an orange one from the local hardware shop.

        Power drill with drill bits for metal measuring 1/8 inch and 3/8 inch in diameter

      • A metal file for smoothing off burrs
      • A thermometer for the kitchen.

        1. Both analog and digital readouts are acceptable
        2. (2) 3/8-inch to 3/8-inch compression adapter (optional – see instructions for this method below)
        3. (3) Teflon Tape and/or hot glue gun with high-temperature hot glue sticks, a high-temperature silicone sealant, or epoxy glue
        4. (4) 3/8-inch to 3/8-inch compression adapter (optional – see instructions for this method below)
        5. (5) 3/8-inch to 3/8-inch compression adapter (optional – see instructions for this method below)
        6. 10-15 feet of refrigerator coil or small-bore copper tubing (either 3/8-inch or 8-10mm in diameter)
        7. Ice is required for the distillation process.

        a stove, a hotplate, or some other type of heat source

      People often ask…

      Pot with a cover made of stainless steel or copper Either a stainless-steel stockpot with a cover or a pressure cooker would work well for this recipe. Whatever you choose, just make sure it’s big enough to hold the amount of mash you’re making. Because water vapor can escape via the lid, the lid must be sealed. Because the lid of a pressure cooker is already self-sealing, it is an excellent choice. Make use of an outdated appliance that is no longer suitable for cooking. In addition to second-hand stores, you may seek for C-clamps, clips, and even weighted things such as bricks to keep the lid down if you are not using a pressure cooker; these items include C-clamps, clips, and even a bungee strap.

      1. Make a dough-like consistency by mixing all-purpose flour with a tiny quantity of water to produce a paste.

      However, because the walls of a thermos-style container or picnic cooler are thicker than those of a regular bucket, you’ll have to drill a hole through them in order for the ice to stay frozen.

      a metal file for smoothing off burrs; a thermometer for cooking Use a thermometer for meat or confectionery if you have one.

      (2) 3/8-inch to 3/8-inch compression adaptor (optional – see instructions for this approach below); Teflon Tape and/or hot glue gun with high-temperature hot glue sticks, a high-temperature silicone sealant, or epoxy glue;
      10-15 feet of refrigerator coil or small-bore copper tubing (either 3/8-inch or 8-10mm diameter);
      In the distillation process, ice is required. a stove, a hotplate, or any other type of heating source

      Q: Can I use a wood stove as a heat source?

      • A: A variety of water heating solutions are available, but the temperature must be managed and maintained constant during the distillation process.
      • This is why having a thermometer is so important.
      • The ideal thermometer reading to use to heat your still is between between 175 and 205 degrees Fahrenheit.

      Q: How long does it take to make one batch of moonshine?

      A: Making moonshine is a time-consuming procedure that needs perseverance. It is dependent on a variety of factors, including the amount of mash you start with, the temperature, your equipment, and others. Expect to spend between 4 and 7 hours making a batch of mash for a 5-gallon batch of beer.

      Safety Tips

      Alcohol has a high flammability rating. Whenever possible, you should run your still outside or in a well-ventilated room if doing so outside is not feasible due to the need to give any stray alcohol vapors enough time to disperse. Before starting a run, run plain water through your system to check for leaks. Because of the volatile nature of alcohol and vapor, anything that permits it to escape is a safety issue. A fire extinguisher should always be kept on hand. Any alcohol flame should not be put out with water.

      1. Never make the mistake of leaving your still running unattended while it is in operation.

      Step 1: Readying the kettle (the vat)

      • Make two holes in the lid of the pot or pressure cooker.
        In the center of the lid, drill a 1/8-inch hole a few inches from the edge. This is the opening through which the temperature sensor will pass
      • Drill a 3/8-inch hole in the lid on the other side of the lid from where you drilled the previous one. This is the opening through which your cooling column (one end of the copper tubing) will pass
      • Remove any rough metal burrs left by the drill using a file

      Step 2: Attaching the thermometer to the kettle

      • To prepare the pot or pressure cooker cover, drill two holes in it.
        A few inches away from the lid’s edge, drill a 1/8-inch hole. A temperature sensor will be able to pass through this opening.
        Drill a 3/8-inch hole in the lid on the other side of the lid from where the first hole was drilled. In this opening, you will insert the cooling column (which will be one end of the copper tubing)
      • Metal burrs left behind by the drill should be filed away.

      Step 3: Coil the copper tubing to make the condenser

      • Maintain the straightness of one tubing end and three to four inches of the other end
      • Coil the middle part of the tubing so that it fits inside your bucket or cooler. Wrap the tubing around a paint or coffee can, or similar cylindrical shape with a diameter that is slightly less than the diameter of your bucket, to form a spiral shape. Please keep in mind that the coiled spiral must move in a smooth, downward direction in order for the vapor to be continuously drawn downward by gravity via the tube.

        People often ask:

        A: Copper tubing is rather soft, and it may be shaped by hand if you use care. If you want, you may use a copper bending tool to bend the tubing, but be cautious not to crimp the tubing too tightly, since this can interfere with the vapor flow.

        Step 4: Attaching the copper tubing to the kettle

        • The longer straight end of the tube should be inserted into the 3/8 hole and the aperture should be sealed in the same way as the thermometer hole was sealed. Before bending the tubing into the coiled part, it should be standing upright in the kettle, forming a “swan neck” shape with its ends. Because of this, the vapor can ascend for a short distance before falling back to the ground due to gravity.

        If using compression fittings:

        1. The longer straight end of the tube should be inserted into the 3/8 hole and the aperture should be sealed in the same way as the thermometer hole was closed.
        2. Prior to bending into the coiled part and forming a “swan neck” shape with the tubing, it should stand upright in the kettle.
        3. A brief distance of rising permits the vapor to ascend before condensing down as a result of gravitational attraction.
        • Incorporate the male-threaded nut into the 3/8-inch hole in the lid of the kettle. Hot glue or silicone sealer can be used to seal the joints.
          Insert one end of the copper tubing into the female-threaded nut on the other end of the copper tubing. The tubing will be held in place by the ferrule, which is fashioned like a circle.
          Insert the female end of the fitting into the male end of the fitting that has been sealed to the lid
        • And

        People often ask:

        A: Make sure to get high-temperature glue sticks for this project, since they will be in direct touch with hot steam during the construction process. Keep an eye out for glue sticks with a melting temperature that is higher than 212 degrees Fahrenheit, which is the boiling point of water. Because you’ll only be utilizing heat much below that degree, any high-temperature resin will suffice.

        Step 5: Attaching the coil to your bucket or cooler

        • This project will necessitate the purchase of high-temperature glue sticks, as they will come into direct contact with hot steam. Try to find glue sticks that have a melting point that is greater than 212 degrees Fahrenheit, which is the boiling point of water. Any high temperature resin will suffice since you will only be utilizing heat at or below that temperature.

        If using compression fittings:

        • Set up the second set of compression fittings by inserting the male end into the bucket hole and sealing it the same way you did with the first set. The portion of the fitting that protrudes from the exterior of the bucket serves as the “spout,” through which the distilled moonshine will be drained. Incorporate the female end of the fitting into the remaining open end of the coil within the bucket
        • And
          Insert the female end of the fitting into the male end of the fitting that has been sealed to the bucket

        Step 5: That’s it! You’ve made a pot still!

        In order to manufacture moonshine, you must first boil the mash in the kettle and then cool it in an ice bath in a bucket. Keep in mind to position a glass container under the spout to catch any stray alcoholic beverages. Pickling jars and fruit jars work great for this, and when you buy them from the shop, they will come with sealing lids. They are available in a variety of sizes, so have a few different ones on hand to capture the various phases of your moonshine production.

        In rural agricultural societies, these sorts of jars were commonly used to store fruits and vegetables for long periods of time.

        Frequently asked questions:

        1. As soon as you’re ready to start making moonshine, put your mash in the kettle and fill the bucket halfway with ice.
        2. Always keep a glass container behind the spout to catch the dripping liquor.
        3. Pickling jars and fruit jars work nicely for this, and they come with sealing lids if you purchase them from a shop.
        4. Have a couple different sizes on hand to catch the various phases of your moonshine production.
        5. They are available in a variety of sizes.
        6. In rural agricultural areas, these sorts of jars were commonly used to store fruits and vegetables for future use.

        Q: How do I clean and store my homemade still?

        In order to manufacture moonshine, you must first boil your mash and then fill your bucket with ice. Keep in mind to place a glass container beneath the spout to catch any stray alcoholic beverages. Fruit or pickling jars work nicely for this, and they come with sealing lids if you get them from a retailer like Sam’s Club. They are available in a variety of sizes, so have a few different ones on hand to catch the various phases of your moonshine production. In rural agricultural areas, these sorts of jars were commonly used to preserve fruits and vegetables.

        Q: Does drinking moonshine make you go blind?

        When you’re ready to start making your moonshine, put your mash to the kettle and fill the bucket halfway with ice. Don’t forget to place a glass container underneath the spout to catch any stray alcohol. Fruit or pickling jars work great for this, and they come with sealing lids when you purchase them from the shop. It is a good idea to have a couple different sizes on hand for catching the various phases of your moonshine production. These sorts of jars were widespread in rural agricultural villages where they were used to preserve fruits and vegetables.

        Q: How long does the moonshine last?

        • A: DIY moonshine that has been sealed will often survive up to 2 years on the shelf.
        • You are not need to refrigerate it, although you may do so if you choose.
        • A jar of moonshine that has been opened will survive around six months.
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