The science behind repour

Repour is designed around a standard 720/750 ml bottle of wine or sake and the maximum amount of oxygen each repour would need to absorb to keep the contents of the bottle fresh.

See the following example:

Serving wine by the glass:

1 glass served = Repour absorbs oxygen from 125 ml of air in the bottle when placed on the bottle

2 glasses served = Repour absorbs oxygen from 250 ml of air when returned to the bottle

3 glasses served = Repour absorbs oxygen from 375 ml of air when returned to the bottle

4 glasses served = Repour absorbs oxygen from 500 ml of air when returned to the bottle

5 glasses served = Repour absorbs oxygen from 625 ml of air when returned to the bottle

6 glasses served = The bottle is empty

Over the course of consuming the bottle, Repour has absorbed the oxygen from 1,875 ml of air

Note:  Repour is designed to absorb oxygen from a volume of air of twice the size of a standard bottle, with a safety factor,  allowing the removal of oxygen from up to 2,000ml of air.  If used to serve more than 6 glasses from one bottle, its effectiveness will be diminished and possibly not effective.

1.  An Oxidation Reaction:

The science behind oxygen disappearing is an oxidation reaction between oxygen and another material. This is a non-reversible chemical reaction which is what makes Repour so effective—and also why one stopper only works on 1 bottle. The reaction looks like this: X + O2 — > XO2 There are no by-products of this reaction, so the oxygen is removed from the bottle and not replaced with anything. As there is 21% oxygen in the air, this means that a 21% vacuum is created (another chemistry principle called Dalton’s Law). You will notice this when you open the bottle. If you do so in a quiet room and listen carefully, you will hear (and sometimes feel) this 21% vacuum break.

2.  Principals of Diffusion:

The second part of Repour’s effectiveness relies on the principles of diffusion. The oxidation reaction is only effective because diffusion of oxygen in the air above the wine “brings” oxygen into the stopper and allows the oxidation reaction to consume it. If you were to open a stopper, you would find a packet (or sachet) inside of it. This is special material that allows air to pass but NOT liquids or fine materials that are inside the sachet that react with Oxygen. Diffusion allows oxygen to pass thru this material.

3.  Henry’s Law:

Ultimately we don’t really care about how much oxygen is in the air; we care about how much oxygen is actually in the wine (i.e. were oxidative damage is actually occurring). In essence, oxygen is always “dissolving” into and back out of the wine. There is an equilibrium that occurs and based on the amount of oxygen in the air. As Repour continuously removes oxygen from the air, it in turn removes all of the oxygen from the wine itself.   This is really the magic behind Repour’s effectiveness. 

In summary, Repour’s effectiveness and science is a three-part process. Oxygen reacts with a material via a non-reversible chemical reaction tailored to oxygen molecules. Diffusion continuously brings oxygen to the site of the reaction, which in combination with Henry’s law brings the dissolved oxygen in the wine down from approximately 8 ppm (which is what an average wine would be once exposed to air) to less than 0.03 ppm. By continuously and actively reacting with Oxygen in a closed space, the stopper will continue to remove all the oxygen in the bottle until there is no oxygen left.