Salting out isopropyl alcohol

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This guide is provided for informational and educational purposes only. We do not encourage you to break the law and cannot claim any responsibility for your actions.

Salting out isopropyl alcohol increases the potency of the alcohol by using salt to draw the water out of the alcohol. The salt dissolves in the water, but is insoluble in isopropyl alcohol, making the water heavier and separate to the bottom while the isopropyl alcohol floats on the top.

Risks and hazards

In order for an explosion to occur oxygen, an ignition source or heat, and a fuel (in this case isopropyl alcohol vapors) need to be present.

Be incredibly careful when working with isopropyl alcohol or any other flammable substances. High temperatures, sparks, or open flames can cause fires or explosions since isopropyl alcohol emits flammable vapors! Breathing isopropyl alcohol vapors is dangerous and these experiments should be done in a well-ventilated area with proper protective equipment.

In order for an explosive event to occur, there needs to be an ignition source or spark. This spark can come from to-be-expected items such as a lighter or overhead light on a stove, but sparks can also occur in less obvious ways, such as static electricity, certain materials grinding against each other, and electric components found on or in stoves or car components.[1] Electric sparks can be created simply by wearing clothes - the common "shock" one experiences after shuffling around with socks on and touching a metal object, along with the sparks created by the compressors in most common kitchen freezers, is sufficient to cause an explosive event.

The flammability of a gas depends on its concentration in the given atmosphere. If the concentration of isopropyl alcohol falls in this range and there is a spark present, there will be an ignition and an explosive event.[2]


  • Isopropyl alcohol - the vapors resulting from this liquid are highly flammable.
Isopropyl alcohol vapors are highly flammable and can quickly accumulate in closed spaces.
  • Non-iodized salt. The salt must not contain iodine. While iodine is soluble in isopropyl alcohol, sodium chloride is not. Additionally, iodine is not very soluble in water. This threatens the purity of the end product.
  • Siphon (oral or needle-type syringe, turkey baster, pipette)
  • Large, resealable glass jar


Note: It is recommended to read all of the procedure before starting it.

Step 1: Add salt to the jar

Salt is poured into the jar until it is about a quarter of the way full.

Step 2: Add the isopropyl alcohol

Isopropyl alcohol is slowly poured into the jar until the jar is filled to the 3/4 mark and then sealed.

Step 3: Mixing

The jar is shaken thoroughly for at least 5 minutes.

Step 4: Let it settle

The jar is then placed down and left undisturbed for approximately a half hour to let the alcohol and salt water separate.

Step 5: Siphon off the isopropyl alcohol

The jar is opened and the clear liquid at the top is the anhydrous isopropyl alcohol. It is siphoned off and placed in an airtight container for storage. No salt should be siphoned and a thin layer of isopropyl alcohol should be left in the jar to avoid any salt being drawn up. Be sure to perform this step in a well-ventilated area to minimize the risks of explosions due to the build-up of isopropyl alcohol vapors.

Step 6: Throw away the salt water

The salt water can be disposed of; it is no longer useful. The remaining isopropyl alcohol in the jar is to be discarded as well. The anhydrous isopropyl alcohol can be stored in a clean, dry container with a marked expiration date and label.