Magnet Mega

A common question that arises for some people when using hard magnetic filters is how effective these filters are and do they really affect the water?
In answering such questions, we must note the conditions that a filter needs to be effective.

Magnetic filters must create a magnetic field of at least 12,000 Gauss to break the molecular arrangement of calcite ions in the water and turn it into aragonite powder in order to have an effect on water. In fact, aragonite powder is formed when the magnetic arc is higher than 12,000 gauss.

I will give you a simple example. In order to boil a container of water under normal conditions, we need a temperature of 100 degrees, while water does not boil at lower temperatures. In magnetic filters, the situation is the same. That is, if the magnetic field created by our magnetic filter is lower than the required amount, i.e. 12000 gauss, it will not have any effect on the water.

Three Basic Conditions

Magnetic filters need three basic conditions to act on calcite ions in water:

1. Type of magnets
2. The distance between the magnets

   A common question for some people while using hardness magnetic filters is how effective these filters are and do they really affect the water?
   to answer such questions, we must note the conditions that a filter needs to be effective.

   Magnetic filters must create a magnetic field of at least 12,000 Gauss to break the molecular arrangement of calcite ions in the water and turn it into aragonite powder. In fact, aragonite powder is formed when the magnetic arc is higher than 12,000 gauss.

   we will give you a simple example. In order to boil a container of water under normal conditions, we need a temperature of 100 degrees, while water does not boil at lower temperatures. In magnetic filters, the situation is the same. hence, if the magnetic field created by our magnetic filter is lower than the required amount, i.e. 12000 gauss, it will not have any effect on the water.

Three Basic Conditions

Magnetic filters need three basic conditions to act on calcite ions in water:

1. Type of magnets
2. The distance between the magnets
3. Flow of water through the filter

1. Type of Magnet

Today, various alloys are used to make magnets, such as ferrite, semi-cobalt, etcneodymium.
To create magnetic arcs above 12000 gauss, we need neodymium magnets from the ND35 class and above. so that we can change the molecular arrangement of the calcite ion. So, if neodymium magnets are not used in the magnetic filter, it certainly has no effect on the water, and in fact it is a simple cover, so spending money on this magnet is a wrong decision.

2. The distance between the magnets

In 1/2 inch size magnetic filters, the standard distance of magnets inside the housing should be 5 to 8 mm. hence, if you see a filter where the distance of magnets inside is more than the mentioned numbers, you can be sure that it cannot have the desired effect. because the increase in the distance between the magnets causes the magnetic arc to drop sharply.

3. Flow of water through the filter

The design inside the housings of the magnetic filters should be such that its flow rate has the standard of 40 liters per minute.
You may see filters in the market where the magnets are far apart. This long distance causes the magnetic arc to drop and increases the flow rate. When passing current of water is higher than normal, the opportunity for the magnetic field to affect the water is reduced and in the same way, we will not see a change in the molecular arrangement of calcite ions.