When water passes through the magnetic field, its structure and physical properties, such as density, capacity of salt solution, and solid particle precipitation ratio, change. This greatly benefits soil improvement and plant growth. Since then, magnetized water has been widely used for agricultural irrigation.
Therefore, attention must be paid to confronting these obstacles and working to overcome them, whether by using genetically improved varieties or by following modern scientific methods used in other agricultural operations, whether irrigation, fertilization, service operations, and others, to confront the problem of salinity in the reclaimed areas, whether in soil or irrigation water.
Therefore, the current trend of using magnetic cultivation technology helps to overcome the problem of irrigation water salinity and thus makes it possible to grow the required crops. As the first patent for magnetic water treatment and limescale disposal in pipes was registered in Europe in 1890, some believe that magnetic cultivation is more modern than some think.
What does the magnetization of water mean?
The generation of a strong magnetic field by magnetizing devices around the water through the walls of irrigation water pipes affects and improves the water's physical and chemical properties.
Why do we resort to magnetizing water?
Initially, scientists called ordinary water "dead water," a term for wells and rivers. It is biologically inactive and energetic because of its long journey, which lost its energy, activity, and vitality as its molecules became randomly distributed, and because of its exposure to water during the desalination process of condensation and air rise.
Adding sterile materials, such as chlorine, to the used water causes it to lose many vital properties. It prevents the plant from gaining the maximum benefit from this dead water, which loses its energy, activity, and vitality. All this eventually leads to a decrease in irrigation water quality and affects the plant's growth, which leads to a decrease in the crop yield and its low quality.
Attracting water activates, nourishes, and restores water to many lost properties, as it properly reorganizes the water's charges when the shape of these charges is random in normal water.
This results in the revival of the water, giving the plant a high level of vigor and vitality and a high ability to make the most of all the nutrients contained in the water. It also increases the plant's ability to absorb fertilizers, resist diseases, and eliminate microbes.
The magnetic field strongly affects water's hydrogen and non-hydrogen bonds, changing water's physical and chemical properties and making it softer. It also reduces surface tension forces by 2%. It attracts salt particles, which help separate it from the water and improve the alkalinity of the water as it turns into semi-acidic water (7.6).
Water molecules in nature gather in groups, which makes their size large, and their molecules are randomly and irregularly distributed. Here, the importance of attracting water appears as an attempt to return it to its natural state, such as rainwater, as it breaks down and dismantles groups of water molecules and salt crystals into small and organized particles.
Magnetization correctly reorganizes water charges when the shape of these charges is random in ordinary water. It also works to break up the salts from the water molecule, allowing the water molecule to return to its standard size.
What are the most important specifications that must be available in irrigation water magnetization devices?
The efficiency of the devices used varies according to several factors, including the type of magnet used and the quality of its manufacture, as well as the material from which the device is made, as follows:
The device must be made of highly rust-resistant stainless steel. The device can be placed in the soil to protect it from theft and reduce its exposure to sunlight.
The device must be one part, as the presence of the device in two halves reduces its efficiency due to its easy exposure to erosion factors, which reduces its shelf life.
It does not require any electrical power source or wiring.
It should be away from any three-phase generator.
It is installed after the water outlet and tanks because water stored for a long time loses its treatment effect.
The most important advantages of using magnetized water in irrigation are:
They neutralized the harmful effect of sodium chloride on plants, improving their growth.
It prevents the formation of lime deposits inside the irrigation pipes, which increases their efficiency.
Increases seed germination rates.
It leads to increased water retention in the soil, which helps the plant's overall growth, increases irrigation efficiency, and reduces the amount of irrigation by about 30%.
Increased fertilizer efficiency means lower costs and greater access to fertilizer for absorption.
Increasing oxygen in the soil improves the efficiency of root growth.
It helps to solve the problem of soil pressure that builds up over time and improves the water-air balance in the soil.
The results of much research on the use of magnetized water in agriculture are:
It was found through scientific research that magnetic water treatment can enhance seed germination and crop growth, increase yield, and improve the quality of fruits. 11.54%, 57.59%, and 32.26%, respectively.
It was also found that the magnetized water promoted corn growth and productivity. By evaluating the effect of magnetized water on growth, yield, and irrigation water use efficiency, the results showed that irrigation with magnetized water.
FAQs on Magnetized Water and Crop Yields
Does magnetized water work for all types of crops?
Magnetized water can benefit many crops by enhancing nutrient absorption and promoting plant health.
How long does it take to see the effects of magnetized water on crop yields?
Farmers may observe positive effects within weeks, with full benefits typically realized over a growing season.
Can magnetized water replace traditional fertilizers?
While magnetized water enhances nutrient absorption, it is not a complete substitute for traditional fertilizers but a complementary technology.
Is magnetized water technology affordable for small-scale farmers?
Various affordable magnetized water systems are available, making this technology accessible to both large and small-scale farmers.
Does magnetized water contribute to sustainable farming practices?
Yes, magnetized water promotes sustainability by improving nutrient efficiency, reducing the need for excessive fertilizers, and minimizing environmental impact.
Can magnetized water be used in organic farming?
Magnetized water aligns with organic farming principles and can seamlessly integrate into organic cultivation practices.