Non-Chemical Technologies Water Treatment Magnetic Water Descaler
Are you tired of dealing with Hard Water Soap Stains on your Bathroom Fixtures?
Are you even aware of the Lime Scale buildup inside your Pipes and Hot Water Heater due to Hard Water?
Would you like to have Better Tasting Tap Water?
Would you like to reduce your use of laundry detergents and fabric softeners?
Would you like to avoid the high cost and maintenance of salt based water softeners?
Would you like to retain the beneficial minerals in you hard water while avoiding the leaching and corrosion problems associated with soft (or softened) water?
Technology
In this FTA uses a magnetic or electrostatic field to alter the reaction between scale-forming ions in hard water. Hard water contains high levels of calcium, magnesium, and other divalent cations. When subjected to heating, the divalent ions form insoluble compounds with anions such as carbonate. These insoluble compounds have a much lower heat transfer capability than heat transfer surfaces such as metal. They are insulators. Thus additional fuel consumption would be required to transfer an equivalent amount of energy.
However, the availability of high-power, rare-earth element magnets has advanced the magnetic technology to the point where it is more reliable. Similar advances in materials science, such as the availability of ceramic electrodes and other durable dielectric materials, have allowed the electrostatic technology to also become more reliable.
The general operating principle for the magnetic technology is a result of the physics of interaction between a magnetic field and a moving electric charge, in this case in the form of an ion. When ions pass through the magnetic field, a force is exerted on each ion. The forces on ions of opposite charges are in opposite directions. The redirection of the particles tends to increase the frequency with which ions of opposite charge collide and combine to form a mineral precipitate, or insoluble compound. Since this reaction takes place in a low-temperature region of a heat exchange system, the scale formed is non- adherent. At the prevailing temperature conditions, this form is preferred over the adherent form, which attaches to heat exchange surfaces.
The operating principles for the electrostatic units are much different. Instead of causing the dissolved ions to come together and form non-adherent scale, a surface charge is imposed on the ions so that they repel instead of attract each other. Thus the two ions (positive and negative, or cations and anions, respectively) of a kind needed to form scale are never able to come close enough together to initiate the scale-forming reaction. The end result for a user is the same with either technology; scale formation on heat exchange surfaces is greatly reduced or eliminated.
To customers details:
01.What is the capacity(m3/hour)you required for this equipment?
or you could confirm diameter of the water pipe.
02.What is the material for this descaling equipment?
Ordinary carbon steel is Okay? stainless steel(SS304/SS316)?
Which means,what is the source of raw water to be treated?
03.What is the magnet power for it?
ordinary 5000 gauss?higher 10000 gauss?
Magnetic pipe descaling 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 |
0-80 |
3 |
YLC-1.5 |
40 |
1.5 |
108×330 |
12 |
160 |
0-80 |
3.5 |
YLC-2 |
50 |
2 |
159×450 |
19 |
160 |
0-80 |
5 |
YLC-2.5 |
65 |
2.5 |
159×450 |
28 |
160 |
0-80 |
11 |
YLC-3 |
80 |
3 |
159×450 |
50 |
160 |
0-80 |
15 |
YLC-4 |
100 |
4 |
219×560 |
80 |
160 |
0-80 |
18 |
YLC-5 |
125 |
5 |
219×600 |
125 |
160 |
0-80 |
21 |
YLC-6 |
150 |
6 |
273×740 |
180 |
160 |
0-80 |
30 |
YLC-8 |
200 |
8 |
325×790 |
320 |
160 |
0-80 |
40 |
YLC-10 |
250 |
10 |
377×850 |
480 |
160 |
0-80 |
50 |
YLC-12 |
300 |
12 |
426×800 |
600 |
160 |
0-80 |
58 |
YLC-14 |
350 |
14 |
478×950 |
750 |
160 |
0-80 |
70 |
YLC-16 |
400 |
16 |
530×1000 |
850 |
160 |
0-80 |
95 |
YLC-18 |
450 |
18 |
630×1050 |
950 |
160 |
0-80 |
116 |
YLC-20 |
500 |
20 |
720×1100 |
1100 |
160 |
0-80 |
148 |
Advandge:
Magnetic Treatment of Water Prevents Mineral Build-up
Non-Chemical Technologies for Scale and Hardness Control
The Effect of Magnetic Field on Water Hardness Reducing
Effects of Magnetized Water on Soil Sulphate Ions in Trickle Irrigation
Effects of Magnetic Field on Calcium Carbonate Precipitation in Static and Dynamic Fluid Systems
Effects of Magnetic Field on the Crystallization of CaCO3 Using Permanent Magnets
Stimulation of germination in rice (Oryza sativa L.) by a static magnetic field
Static Magnetic Field Influence on Elements Composition in Date Palm
Magnetic Treatment of Irrigation Water: Evaluation of its Effects on Vegetable Crop Yield and Water Productivity
The Effect of Magnetic Water on Growth and Quality Improvement of Poultry
Exposure of Irrigation and Drinking Water to a Magnetic Field with Controlled Power and Direction
Our services:
We provide 24 hours online customer service.
Any inquiry about water treatment system, please feel free to contact me for further details!
Contact information:
Mobile phone: +86 13585066069
Website: http://yldwater.en.made-in-china.com
Official website: yldwater.en.made-in-china.com
Guarantee period:1 year
After-sale service:800-827-87-226