Watercon technology – How it works

Watercon is a revolutionary development in water treatment technology that stands out for not using chemicals or salt. Watercon does not change the chemical makeup of water, in contrast to traditional procedures. Rather, it reduces the adhesion power of limescale crystals by affecting their physical characteristics.

Watercon uses electric impulses produced inside an electronic device that are carefully controlled by a computerized microchip to operate outside of the water pipe. The transmission of these signal frequencies occurs via customized Watercon-impulse-bands that round the pipe. When these bands work in couples, they produce a frequency field that changes the structure of limescale crystals and makes them less sticky to water.

Limescale is a major source of issues.

  • pipelines that are blocked
  • drab surfaces and broken equipment
  • Elevated heating costs
  • Elevated cleaning costs
  • Accumulation of rust in the pipe, which causes corrosion
  • Bacterial development in pipelines that transport drinking water
  • Reduced output in addition to many other things

In what ways does Watercon aid in resolving these issues?

1. Watercon lessens appliance and pipe scaling

The limescale particles in the water, in the absence of the Watercon water treatment, crystallize into sticky deposits. Using the organic process of electrophoresis, the proprietary Watercon-Impulse-Technology alters the crystallization of calcium and magnesium. The crystals lose their ability to adhere to one another and become smoother, rod-shaped crystals. Now, the fine powdered limescale is washed away in the water. There is no longer any new deposit creation. The higher the good effect of limescale prevention, the more rod-shaped crystals that form.

Mono-crystals generated through the Watercon water treatment process

When producing mono-crystals through impulse variation, maximizing their growth before entering the piping system is crucial. Larger crystals take longer to disintegrate and “die” compared to smaller ones. In warmer water, crystal growth is accelerated, resulting in stronger and more durable crystals. Consequently, the Watercon-effect persists for a longer duration in warm water (up to seven days), whereas in cold water, its duration is shorter (approximately two days).

2. The pipe system is softly sterilized by Watercon.

Untreated hard water undergoes two simultaneous processes:

a. In the first, calcium crystals stick to one another and then to surfaces, resulting in the formation of limescale deposits. The byproduct of this first action is carbonic acid (H2CO3).

b. The carbonic acid concurrently degrades the pre-existing layers of limescale during a second process. We call this the “natural resolving process.” The diameter of the pipes continually shrinks because the build-up process proceeds much more quickly than the natural resolving process.

Ca(HCO3)2
+
Watercon
->
CaCo3
+
CO2
+
H2O
calcium- hydrogen- carbonate
Watercon impulse
Mono- crystal
carbon dioxide
water

The equilibrium between the natural resolving process and the scaling process is altered by the Watercon water treatment. Because the mono crystals are unable to form deposits, the first process’s build-up of limescale is lessened. The only deposits that need to be addressed for the natural limescale-resolving process to be effective are the ones that are already there. Limescale is thus eliminated more quickly than it builds. The excess carbonic acid found in nature dissolves the limescale. We will remove the sediments in the pipes gradually and cautiously.

Rust reduction equals scale reduction.

Iron particles sank into the limescale layers as soon as they accumulated. Consequently, the rust and limescale combine to form a single substance that appears as red deposits inside the pipe. At the same time that the Watercon treatment breaks down the scale, it also lessens rust.

Limescale is gently dissolved back into solution and rinsed out in the water as calcium, magnesium, and iron in order to remove the deposits. Drinking it is completely safe because all of these minerals are beneficial.

Scale decrease equals bacterial reduction.

We are aware that bacteria and other undesirable elements thrive in limescale. The bacteria’s breeding ground is diminished as soon as Watercon is installed and the scale is lowered. In this manner, the presence of germs is significantly decreased or eliminated.

3. Watercon guards against perforation and rust damage.

When calciferous (hard) water comes into touch with any metal pipe, copper and/or iron oxidation takes place. These oxides have a negative impact on pipe surfaces and can cause corrosion.

A metal-carbonate layer that is protective is created by the electrophoresis effect caused by the Watercon Impulse technology. This layer, which forms on any glossy metal surface, is composed of copper, iron, or zinc carbonate, depending on the kind of pipe. It shields the pipe from caustic chemicals that could cause corrosion.

The Watercon impulse bands

Custom isolated copper impulse bands that are intended to securely attach to the pipe are used by Watercon to operate. They have minimal isolation and are incredibly thin and flexible. They maximize the direct-contact ratio to 97.5% and minimize space loss in this way. The highest degree of alloy purity in their unique copper substance ensures the best possible transfer output. An essential component of the water treatment process’ effectiveness are the copper treatment bands.

The ratio of treatment area to pipe diameter
The surface area that is essential for the treatment is covered by the impulse bands. The “treatment area” refers to the portion of the pipe that the impulse band covers. To guarantee that the impulses are carried through the pipe, this region must be sufficiently large.

Standard cable treatment versus Watercon impulse band

  other cables         Watercon impulse bands

Comparison:
Because there is less distance between them, the Watercon Impulse Bands gather more direct contact than circular wires. There is a 97,5% direct contact ratio.