The working principle of the electromagnetic descaler:
The Megola electromagnetic descaler is installed on the imported cold water line, as close as possible to the raw water. The installation process includes surrounding the raw water pipe with insulated wires To form a series of closed coils, these coils are connected to the microcontroller control box. Electric current passing through these coils generates a series of penetrating magnetic fields that sweep through the water flow at a pre-designed frequency. The Megola electromagnetic descaler is extremely efficient because of a patented technology. This process can use these fluctuating magnetic fields to generate high voltage and high frequency. Carriers of signals that vibrate at the natural vibration frequencies of water molecules.
Nothing is added and nothing is taken away from the water. The Megola electromagnetic descaler does not try to prevent the natural tendency of hard water to scale by adding or removing chemicals. It treats water by assisting and promoting the formation of scale. However, scale is suspended in the water, not somewhere in the water system. Scale buildup on the surface. Moreover, these suspended scale crystals will gradually take away the existing scale in the system, and finally achieve the effect of completely eliminating these scales.
How electromagnetic descalers compare to other physical water treatment methods: If you look at a picture of an electromagnetic descaler and a picture of another device (B) that claims to have the same function as an electromagnetic descaler, You won't immediately be able to tell the difference. But look closer and you'll see that the electromagnetic descaler uses a closed coil system that forms a loop. This closed coil system allows it to generate a magnetic field powerful enough to penetrate the pipe material and carry a pulse-modulated signal into the water. The coil of device B is not closed, and the wire is terminated (if the pipe is metal, it may be connected to the pipe). It consists of wires wrapped around a pipe and then connected to the pipe by its open end, and can only produce a weak, balanced magnetic field and/or radio waves that can only affect the water under specific and ideal circumstances. This is the first difference.
The second difference is in the box (control panel). Device B can be designed to change the frequency and sweep the water flow with a weak magnetic field at a certain frequency (assuming that the magnetic field can penetrate the pipe material) and can Therefore, it plays a certain role under a wide range of water quality conditions. The strong penetrating magnetic field of the electromagnetic descaler can be used as a carrier of high-voltage and high-frequency signals. This signal can be adjusted according to some parameters, including calcium hardness, bicarbonate hardness, pipe material, pipe diameter, temperature, and water flow. rate, system water capacity, etc.
Comparison between electromagnetic scaleguard (Scaleguard) and water softener: The traditional water softener is a device equipped with ion exchange resin, which is filled with sodium ions (ordinary) when it is first used. salt), when water flows through the resin, calcium ions come into contact with the resin and replace the sodium ions, which enter the water. In this way, the water is softened, most of the calcium ions are removed from the water, and the amount of scale formed is greatly increased. reduce. Softened water requires less soap and detergent for cleaning, laundry, soap suds is greatly reduced, and you feel better in the bath. In short, a water softener really does what it claims to do. Purpose.
However, water softeners have their own shortcomings. First of all, in terms of health, calcium is an essential nutrient for the growth of bones and teeth. Water softeners remove calcium ions from the water, but bring sodium ions into the water. Sodium ions can cause high blood pressure and heart disease.
The biggest problem with water softeners in terms of maintenance costs is that the resin will eventually (months or weeks, depending on the hardness of the water being treated) fail. Resin is expensive and cannot be replaced, but can only be regenerated by backflushing. This backwashing process requires purchasing salt to be added to the resin and flushing with large amounts of clean water. This process is expensive, inconvenient, harmful to the environment, and corrosive to the drainage system.