10000 Gauss Water Magnetizer Descaling Equipment
I. Introduction
WATER TREATMENT MAGNETS
magnetic treatment of water has been shown to reduce "hardness" caused primarily by calcium and magnesium. Water treatment can prevent deposits of these minerals on the inside of pipe walls, as well as descale the existing buildup of solids.<o:p>
Typical applications of these magnets include ice machines, water coolers, instant water heaters, dishwashers, boats, air conditioners, restaurants, homes, solar panels, agricultural pipe, car wash facilities, spas, factories, hospitals, mines, boilers, steel fabricators, public pools, cooling towers, industrial drainage pipes, sewage treatment outlet pipes and many others!<o:p>
Physical Benefits of Magnetized Water
1. Salinity
Magnetic treatment of saline irrigation water can be used as an effective method for soil desalinization.
The application of a magnetic field on water decreases the hydration of salt ions and colloids, having a positive effect on salt solubility, accelerated coagulation and salt crystallization. Field experiments
conducted in Egypt showed that, sandy loam soil pots irrigated with normal highly saline water of an
electrical conductivity value of 8.2 mmohs/cm retained salts compared to pots irrigated with
magnetized saline water. The study showed that MW increased leaching of excess soluble salts,
lowered soil alkalinity and dissolved slightly soluble salts.
2. pH
Joshi and Kamat and Busch et al. have observed pH changes with the application of a magnetic
field to water. Parsons et al. confirmed a decrease in pH in a study using sodium hydroxide to
stabilize pH at 8.5 then applying magnetic treatment to the solution. In this study, the magnetically
treated water required up to 2.5 times more sodium hydroxide compared to the controls to stabilize
pH. pH has been shown to decrease from 9.2 to 8.5 after magnetic treatment in a system with
Ca(OH)2 , where the degree of the reduction was dependent on the strength of the magnetic
treatment. Busch et al. showed an initial decrease in pH from 7.0 to 6.5, that was followed by an
increase in pH with time from 7.5 - 8.0.
3. Permeability
Water becomes degassed in the process of being magnetized and this degassing increases soil
permeability, which creates an increase in irrigation efficiency (Bogatin et al., 1999). In addition
to soil permeability, MW water interacts with the structural calcium in cell membranes, making the
cells more permeable (Goldsworthy et al., 1999). The reduced surface tension observed in MW
results in better infiltration of water and a reduction in water and chemical use. At the Indianapolis
500 Brickyard Crossing Golf Course a MTD has been installed to treat irrigation water. An
improvement in the infiltration distribution of water has all but eliminated wet and dry area,
reducing 80 hours of weekly hand watering to less than 10 hours a week (Ritchie & Lehnen, 2001).
The improvement in uniformity distribution of irrigation water has saved money in labor, hand watering
and roping off wet areas, and golf cart damage.
II. Working principle
On use of potential energy which generates from neodymium iron boron permanent magnetic material, and optimal design, forming a crest vertical center field. When water or fluid flow through the vertical magnetic field, will produce an electromotive force, The lattice refinement, The original water fouling crystal particle size from about 3.39 microns to about 0.22 microns, flow rate will be faster, The electromotive force generated greater, The effect is more ideal, To achieve the anti-scaling, scale removal purpose.
Meanwhile, water treated by magnetic field, the electrical conductivity and osmotic pressure changed and microbial cell ruptured, cells stop breeding, which achieve effect of sterilization, and algae removal.
Since the water treated by magnetic field, it will produce tiny electron flow, which change Fe2O3 · NH2O into stable Fe3O4 and generates black magnetic iron oxide which deposited onto the tube wall surface to form a film barrier layer, the oxygen in the water separated from the pipe wall, in this case, it realize the purpose of removal and prevention of rust.
III. Scope of application
Δ A variety of water system which is easy to breed bacteria, algae and scale
Δ Air conditioning, refrigeration circulating water system.
Δ A variety of heating exchange and cooling tower system.
Δ Swimming pool 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 |