Anti-Scale Magnetic Water Treatment for Pipes Water Treatment
1. Working principle
Inhibit scale
Negative charge of bicarbonate ions (HCO3-) can not absorb on the surface of pipe on the function of repulsion from the negative charge pipe. Carbonate crystals will precipitate from water in strong magnetic activation. The stable partial diamond crystal will change. Amorphous crystals can not congregate together forming large polycrystalline but to soft aragonite. Aragonite has no ability of absorbing on the surface of pipe. So it will suspended in the water and precipitate when the water flow is smooth.
Clean scale
Positive charge hydrogen ion will be absorbed by negative charge pipe and dissolve generated scale and corrosion. Activation of polar water molecules will penetrate into the scale and do the effect of constriction and sorption. Scale will be off from the surface of pipe gradually. The time of clean scale is based on the depth of scale and system working condition.
Inhibit corrosion
Pipe and water form bipolar nature. Water is positive and pipe is negative. The negative charge of pipe form cathode protection in order to electrochemical corrosion occur. The negative charge oxygen is repelled by negative charge to not corrode the pipe. The bacterial and algae will be killed and can not produce mucus. So there will be no slime to reach to inhibit the occurrence of bio corrosion.
Kill bacterial and algae
Hydroxyl ions which is generated through ionization reaction has most natural oxide sterilization function. Free activation oxygen can destroy biological macromolecules, microbial membrane peroxidation and damage the dismutase. What's more, magnetic field cause microorganisms, bacterial and other cells passivation, enzyme inactivation. The environment to survival is damaged, the bacterial and algae can not survival. At the same time, the system environment is alkaline which is not conducive to the growth of bacterial and algae.
Limescale causes problems to industry and domestic users in hard water areas.
Limescale (consisting of mainly calcium carbonate,b plus calcium sulfate, barium sulfate, calcium phosphate, magnesium hydroxide, zinc phosphate, iron hydroxides and silica, dependent on the geographical area) is a problem in heated water systems wherever 'hard' water is obtained from limestone or chalk countryside. It is formed primarily because the solubility of calcium carbonate decreases with increasing temperature. Limescale is only a problem if calcium carbonate deposits calcite crystals, which may form directly or subsequent to metastable hexagonal and fibrous vaterite crystal formation. It is widely reported that magnetic fields may halt or reverse scale buildup . The literature is somewhat confused with some reporting that orthorhombic aragonite crystals have a higher density but, although intrinsically harder, are less prone to form hard scale on surfaces , whereas other papers report aragonite is more troublesome forming the harder scale on surfaces .
There seems to be little experimental literature to decide one way or another and in any case it is the relative (kinetic) ability of the precipitating particles to stick to surfaces rather than themselves, under the prevailing physical (e.g. electrical and magnetic fields) and chemical (e.g. Mg2+ and Fe3+ content) conditions, that is of overriding importance
The mechanism by which the magnetic field produces its effect seems down to the presence of disordered hydrated CaCO3 aggregates , forming liquid emulsions which may be affected by the magnetic field and so convert into different prenucleation clusters and hence different structures on crystallization .
Features and Benefits
· Control scale without chemicals or salt
· Convenient and simple installation
· Very effective at specified flow ranges
· Extends the life of fixtures, pipes, water heaters and appliances
· Decreases amount of detergents and soaps used
· Environmentally friendly and safe for plants and soil
· No moving parts or electricity
· Keep the benefits of natural calcium without negatives
· Made of high grade stainless steel,
· Does not remove anything from or add anything to the water
· No wasted water or by-products
III. Scope of application
1. Central Air Conditioning System
2. Industrial cooling water system
3. Landscape, swimming pool system
4. Heat exchange system, heating system
5. Production and domestic hot water supply system
Technical Parameters:
| model |
inlet and outlet |
dimension(mm) |
flow rate |
Vertical center |
Working medium |
weight |
| mm |
inch |
diameter*length |
m 3 /h |
strong magnetism (mt) |
temperature
( . C) |
Kg |
| YLC-1 |
25 |
1 |
108×330 |
4.9 |
160 |
0-90 |
10 |
| YLC-1.5 |
40 |
1.5 |
108×330 |
12 |
160 |
0-90 |
20 |
| YLC-2 |
50 |
2 |
159×450 |
19 |
160 |
0-90 |
30 |
| YLC-2.5 |
65 |
2.5 |
159×450 |
28 |
160 |
0-90 |
40 |
| YLC-3 |
80 |
3 |
159×450 |
50 |
160 |
0-90 |
45 |
| YLC-4 |
100 |
4 |
219×560 |
80 |
160 |
0-90 |
50 |
| YLC-5 |
125 |
5 |
219×600 |
125 |
160 |
0-90 |
60 |
| YLC-6 |
150 |
6 |
273×740 |
180 |
160 |
0-90 |
70 |
| YLC-8 |
200 |
8 |
325×790 |
320 |
160 |
0-90 |
90 |
| YLC-10 |
250 |
10 |
377×850 |
480 |
160 |
0-90 |
110 |
| YLC-12 |
300 |
12 |
426×800 |
600 |
160 |
0-90 |
130 |
| YLC-14 |
350 |
14 |
478×950 |
750 |
160 |
0-90 |
160 |
| YLC-16 |
400 |
16 |
530×1000 |
850 |
160 |
0-90 |
210 |
| YLC-18 |
450 |
18 |
630×1050 |
950 |
160 |
0-90 |
260 |
| YLC-20 |
500 |
20 |
720×1100 |
1100 |
160 |
0-90 |
330 |
){kind=link}