Magnetized Water Softener For Crop Yield Better Growth
Magnetized water softener (MWS) techniques have shown promising potentials in different areas specially agriculture. Safety, compatibility and simplicity, environmentally friendliness, low operating cost and not proven harmful effects are the main advantages of electromagnetic field (EMF) over conventional methods for water treatment. Magnetized or magnetic water (MW) possesses unique physical and chemical characteristics making it a multi-purpose compound with potential benefits in medical treatment, industrial as well as environmental applications. The unique physical and electrochemical characteristics of MW have attracted research interests to develop different devices and techniques in agricultural and environmental applications. Improvements of irrigation water quality and quantity, crop yields and quality, soil improvement and water saving are some of the reported benefits of MWT in agriculture. In addition, magnetic field treatments have shown beneficial effects on the germination of seeds, plant growth and development, the ripening and yield of field crops. The main challenge in applications of MW in agriculture is efficient integrating of irrigation components, designing suitable pumps compatible with technical and field requirements of magnetic MWT systems. The present study reviews the applications of MW in agricultures. The practical challenges in using MW as well as future perspective are discussed.
Effects on Crop Yield
In the field of crop yield, researchers have focused on using of physical growth stimulation approach because of no known adverse effect on the environment. MW technology is a promising physical growth stimulation approach. The characteristics of water treated by the magnetic field can be altered to cause changes in plant properties, growth and production. MW can be used for saving irrigation water.
MWScan increase the seed germination. Irrigation with MW modulates several parameters that are associated with the crop yield: growth characteristics, potassium, GA3 , kinetin, nucleic acids (RNA and DNA), photosynthetic pigments (chlorophyll a & b and carotenoids), photosynthetic activity and translocation efficiency of photo-assimilates. Several studies have shown the enhancement of water productivity in both crop and livestock production, number of flowers and total yield of fruits for different crops including strawberry and tomatoes.
AAA:
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 or 15000 gauss?
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 |