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Distillation is a process where you separate the components of a liquid from one another. When you distill water, you can separate the pure, drinkable water from any contaminants (such as salt, bacteria, or minerals) that might affect the water's taste or potability. A water still works by first heating water until it turns into steam, then collecting the steam in tubes or on a glass plate, and finally condensing the steam into new, purified water droplets that can be collected in a clean vessel. [1] You can purchase a water still at many hardware stores, or you can build your own out of common materials.

Method 1
Method 1 of 2:

Making a Stove-top Water Still

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  1. Some of these materials will likely already be in your home. Other materials might need to be purchased at a hardware store or a home-brewing supply company. Do not try to buy cheap alternatives to these products: if you want your distilled water to be safe, you will have to use food-safe, heat-resistant materials. Your supplies should include:
    • 20ft (6 m) of 3/4-inch copper coil
    • 6 feet of heat-proof silicone tubing
    • A two-gallon bucket
    • Tea kettle or pressure cooker
    • Ice
    • Sealer
    • A large water bottle to collect the distilled water
  2. Fill your ice cube trays or some water bottles with water and then place them in your freezer. You will want to have a lot of ice on hand during the distillation process. Keep in mind that distilling water involves boiling the water into steam and then quickly cooling it down into purified water droplets. If you plan to distill a lot of water, you will require many, many trays worth of ice.
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  3. Your water still will require a cool environment where the steam can re-condense into pure water droplets. The heated water will travel through waterproof, heat-proof copper tubing that is coiled inside your cooling tank, allowing the steam to cool into purified water inside the tubes. Your cooling tank can be very simple: a two-gallon plastic bucket will do. Alternatively, you could use a large milk jug that has been cut in half and filled with ice.
    • If you are using a two-gallon bucket, be sure that there is a 3/4-inch hole at the top of the bucket and the bottom of the bucket. The copper tubing will need to be fed through both holes in order to collect the steam (at the top) and emit the water (at the bottom).
  4. Your water still will involve collecting the water from your heat source (the tea kettle or pressure cooker), sending it through coiled tubing inside the cooling tank to let the water condense, and then finally into your storage container for the distilled water. The most efficient way to cool the water will be to have it travel through a coiled tube that is immersed in ice water or that surrounds a very cold object (like a frozen milk jug). Coil the copper tubing about 7 or 8 times. You will have a spiral once coiled.
  5. Heatproof silicone tubing can be used to connect the source of your heated water (either your pressure cooker or tea kettle) to the top of your condenser coil. Cut the 6-ft. tubing in half to leave you with two 3-ft. tubes. If you are using a tea kettle, simply affix one end of the tubing to the spout of the kettle. If you are using a pressure cooker, affix one end of the tubing to the open pressure valve on the lid of the pressure cooker.
  6. At this point, you can connect the water source to your condenser tubing with the silicone tubing. Take the other end of the tube that you've connected to your water heater, and fit it over the copper tubing at the top of your condenser coil. Be sure you have a tight fit.
  7. At this point, you should have a hot water source that is well connected to a condenser coil that is affixed to a cooling system. However, you will still need a way to collect the purified water that forms inside your condensing coils. Use the other 3-ft. piece of silicone tubing to create a spout. The bottom of your condensing coil should at this point be sticking out of the bottom of your cooling tank. Attach silicone tubing to this outlet, and then place the other end over a clean water bottle. This will complete your water distillation system.
  8. Fill your kettle or pressure cooker with water and place it on your stove. Turn the stove up high and wait for the water to boil. The steam will travel through your silicone tubing, into the copper tubing, and through the cooling system. There, the steam will turn into water droplets through the process of condensation, and finally travel out through your water spout and into your purified water container. All impurities such as salt, minerals, or dirt will be left behind, leaving you with pure, clean water in the final collecting bottle.
  9. If you plan to store your distilled water for long periods of time, be sure that your storage container has been thoroughly sanitized. Dilute one teaspoon of bleach in one gallon of water. Use this solution to thoroughly coat the inside of your storage container. After about 30 seconds, pour out the bleach solution. Let your container air-dry or rinse it with clean water.
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Method 2
Method 2 of 2:

Making a Solar Water Still

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  1. Most of the materials you require for a solar water still can be acquired at a hardware store or home-brewing supply store. A solar water still will require more handiwork and assembly than a stove-top water still, but a solar water still can come in handy in emergency situations where you do not have working electricity or gas. Your materials should include:
    • Plywood (4 feet by 8 feet)
    • One sheet of high-finish, tempered glass (27.25 x 22 inches)
    • Wood glue
    • High-temperature black paint
    • Screws
    • Drill with drill bits
    • Caulk
    • PEX tubing (2 feet)
    • Rigid insulation
    • Two long, flat glass baking pans
  2. The base of your solar water still will be a wooden box made out of plywood. The top of the box should have a slight incline so that the glass top will be at an optimal angle. Your box will be made of five different plywood pieces:
    • A bottom base that measures 23.25 x 19 inches
    • A short end piece that measures 5.75 x 20.5 inches
    • A long end piece that measures 9 x 20.5 inches
    • Two trapezoidal side pieces that measure 9 1/8 inches tall (at the long end), 5 1/8 inches tall (at the short end), and 26.75 inches wide
    • Note that a circular saw set to a 9 degree angle can help you cut the trapezoidal pieces correctly [3]
  3. Cut a piece of rigid insulation using the same measurements as the bottom base of your plywood box. Screw the insulation to the plywood base. [4]
  4. Using screws and wood glue, assemble all of the pieces of the wooden box together, except for the long end piece. The long end piece will be your hinged door and must be attached using separate door hinges. Make sure that the door faces the short end and that the two trapezoidal pieces face each other. Use caulk or weather seal to make sure all of the edges are airtight. [5]
  5. High-temperature black paint will help the water inside the still heat up in the sun, allowing it to evaporate more efficiently. Coat the inside of the box thoroughly. Allow the painted box to dry for 3-5 days to ensure that all fumes and toxins are aired out before you finish assembling the still. [6]
  6. Your PEX tubing will be used to collect the water droplets that form inside the solar still and pour them into a separate, clean container. To insert the piping into the box, drill a hole the same diameter of your tubing 1/2 inch down from the top of the box at the short side of the trapezoid. Only make a hole in one of the trapezoidal pieces: not both. [7]
  7. In order to collect water effectively, your water tube must be open inside of the box (to collect water drippings) but closed outside of the box (to keep the water clean). Mark 19 inches on your PEX tubing, and slice it in half. This should leave you with a piece of tubing that is open for 19 inches and closed for 5 inches. Screw the open piping inside the short side of the box using three screws, making sure that a few inches of the closed tubing are able to stick out through the pre-drilled hole. [8] Slope it down to a point 1/4-inch below the starting height to make sure the water flows out of the box properly. [9]
  8. The glass plate will fit at a slight incline into the top of your water still, allowing water droplets to form inside and then flow down the incline and into your PEX water tubing. From there, the purified droplets will leave the still through the closed piping and into a separate container. After making sure your glass plate has been thoroughly cleaned, caulk the outer edges of the glass thoroughly. Then gently lay it on top of your assembled box. If you have measured correctly, the glass roof should be at a 5-10 degree angle, which is ideal for water collection. [11]
    • You can use a temporary stop or painters tape to secure the caulked glass roof until it has dried thoroughly. [12]
  9. One of the sides of your still has been attached with hinges, which will allow you to open and close the door at will. Fill two flat, glass baking pans with water (1-2 inches or so), and insert them into your assembled still. This will serve as the water source that will be purified by the sun.
  10. If you plan to store your distilled water for long periods of time, be sure that your storage container has been thoroughly sanitized. Dilute one teaspoon of bleach in one gallon of water. Use this solution to thoroughly coat the inside of your storage container. After about 30 seconds, pour out the bleach solution. Let your container air-dry or rinse it with clean water.
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      Tips

      • Distilled water can be used not only for drinking but also for making soap, filling steam irons, and in automobile repairs. [13]
      • Make sure that all components are fully dried and airtight before first use to prevent leaking and warping.
      • Clean all components of your water still thoroughly before distilling drinking water. They might be dusty or dirty.
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      Warnings

      • The materials you use in your water still should all be heat resistant to prevent warping, melting, or leaching chemicals into your purified water. Make sure your collection buckets, tubes, and lids are all heat-proof.
      • If you plan on drinking your distilled water, be sure that your materials are considered food-safe. A number of building materials (such as vinyl and plastics) are not toxic to touch but might leach toxins into your water.
      • Be careful about touching the components of your water still: they get very, very hot during the distillation process.
      • It is not recommended for you to use a homemade water still for alcohol distillation. You might inadvertently create the toxin methanol, which can cause blindness when ingested. The fumes are also extremely flammable and dangerous.
      • It is not recommended for you to drink only distilled water for extended periods of time. While distilled water can help you stay healthy in certain short-term situations (such as a Cryptosporidium outbreak or temporary water contamination), distilled water also deprives your body of essential minerals and nutrients. [14] If it is safe for you to drink non-distilled water, you should do so.
      • If your water source has been contaminated with fuel or toxins, you should find another source of water: your home treatment plan might not work well enough to keep you safe. [15]
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      About This Article

      Article Summary X

      To make a stove-top water still, cut a large milk jug in half and fill it with ice, then coil a copper tube and pass it through the milk jug, coming out through a hole in the bottom. Connect 3 feet of heatproof silicone tubing to a tea kettle, then attach the other to the top of the copper tube. Attach another 3-foot piece of silicone tubing to the other end of the copper tube, where it comes out of the bottom of the milk jug. Place the free end of the second tube in a bowl to collect the purified water. Add water to the kettle and bring it to a boil to start using your still! Keep reading to learn how to make a solar water still!

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