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'Water Battery': Charging water by means of a mini water bridge

Date:
March 1, 2016
Source:
TU Graz
Summary:
Researchers have managed to produce electrically charged water by means of a floating water bridge.
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The water bridge pictured is formed under the influence of a high-voltage electrical field of about 15kV. It spans about 1 cm across two Teflon beakers, each filled with deionised water.
Credit: © Woisetschläger/Fuchs - TU Graz.

Together with the Wetsus research centre in The Netherlands, researchers of TU Graz have managed to produce electrically charged water by means of a floating water bridge.

Until its scientific rediscovery in 2007 at TU Graz, the "water bridge" phenomenon, discovered in the 19th century, had sank into oblivion. If extremely pure water, in other words water that has been distilled many times, is placed in two beakers and subject to a high voltage, the fluid moves up the side of each beaker and forms a floating water bridge between the two vessels. The water in this bridge flows in both directions and is in a completely new state with its own special properties of density and structure. A research group of TU Graz and the Wetsus research centre in The Netherlands has now demonstrated that this floating water bridge produces electrically charged water and stores the charge at least for a short time.

Protonic electrical charge

The water is not electronically, but rather protonically charged. This novel kind of water is either positively or negatively charged depending on whether it contains more or fewer protons. The study shows that in anodic water -- water with a positive charge -- protons are formed in the context of the occurring electrolysis. These hydrogen nuclei flow through the water bridge into the cathodic water of the other beaker, which has a negative charge, and are neutralised there by hydroxyl ions. Since the protons move at a finite speed, there is always an excess of protons in one water container and a lack of protons in the other.

If the water bridge is suddenly switched off, the proton charges remain, as can be measured by means of impedance spectroscopy. The first investigations have shown that the fluid's charge remains stable for one week.

From water battery to low-waste chemistry

The realisation that such water bridges can be used as electrochemical or biochemical reactors opens up a variety of possible industrial applications. Substances can be brought into contact with other materials in the water bridge for the purpose of chemical reactions, water can become a "water battery" as a storage of electric charge, and acids and alkalis can be produced without any opposing ions -- without acid and alkaline water. This opens the way to especially eco-friendly cleaning agents, reduced waste from chemical processes, and new possibilities for medical applications.


Story Source:

The above post is reprinted from materials provided by TU Graz. Note: Content may be edited for style and length.


Journal Reference:

  1. Elmar C Fuchs, Martina Sammer, Adam D Wexler, Philipp Kunkte, Jakob Woisetschläger. A floating water bridge produces water with excess charge. Journal of Physics D: Applied Physics, 2016; 49 (12): 125502 DOI: 10.1088/0022-3727/49/12/125502

Cite This Page:

TU Graz. "'Water Battery': Charging water by means of a mini water bridge." ScienceDaily. ScienceDaily, 1 March 2016. <www.sciencedaily.com/releases/2016/03/160301103220.htm>.
TU Graz. (2016, March 1). 'Water Battery': Charging water by means of a mini water bridge. ScienceDaily. Retrieved August 29, 2016 from www.sciencedaily.com/releases/2016/03/160301103220.htm
TU Graz. "'Water Battery': Charging water by means of a mini water bridge." ScienceDaily. www.sciencedaily.com/releases/2016/03/160301103220.htm (accessed August 29, 2016).