Ionic rod water processor

Composition structure and working principle of ion rod water processor: 

The ion rod water processor is based on the first generation of physical water treatment principles, mainly composed of a rod alloy composite probe and an electric control box that generates high voltage electricity. The electric control box outputs a direct current of 18000V or above, creating a high-voltage electrostatic field around the rod alloy composite probe in the water to maintain continuous treatment of the water. According to the polarity of water molecules, they are arranged in a disordered manner in their natural state. However, in a high-voltage electrostatic field, water molecules undergo a regular arrangement. Can remove cations (Ca2+, Mg2+) and anions from water bodies（ Surrounded by Cl - and SO42-, it prevents the occurrence of chemical reactions and forms a potential difference between water molecules and equipment, binding the ability of ions to aggregate towards the equipment and preventing scaling. In a high-voltage electrostatic field, the electron binding force between scale molecules can be disrupted, changing their crystal structure, promoting looseness, and increasing the dipole distance of water molecules to enhance their hydration ability with salt molecules, gradually eroding and shedding the scale. Under the action of high-voltage electrostatic field, a certain amount of ozone (O3) can also be generated in water. Ozone has strong oxidation ability and can form a dense layer of several microns on the inner wall of equipment scale, which can greatly delay the corrosion of the system. Ozone also has a strong ability to kill microorganisms, 600-3000 times stronger than chlorine blocks, and can quickly kill microorganisms. The high-voltage electrostatic field also changes the biological field of bacteria and algae derived from water, inhibiting their metabolic ability. Under these combined effects, it can quickly and effectively kill microorganisms in water bodies.

2. Installation and operation mode of ion rod water processor:

The installation of high-voltage electrostatic water treatment equipment is extremely simple. It can be installed in the system's pipelines, or in clusters of dozens or even hundreds of units installed in reservoirs or water tanks below cooling towers. It is installed using an array method and can process thousands to tens of thousands of tons of circulating water. It can also be connected to remote monitoring equipment to monitor the working status of high-voltage electrostatic water processors in the computer room or control center. Once the power is turned on, work can begin. A single unit consumes less than 15 watts and does not require dedicated management. It is only necessary to regularly observe whether the equipment indicator lights are working properly, which is safe and convenient.

2、 The advantages of ion rod water treatment method

1. Effect advantages

1.1 Comparison with other physical methods for treating water

At present, in addition to high-voltage electrostatic treatment of circulating cooling water, magnetic field treatment of circulating cooling water is commonly used. The principle is based on Faraday's electromagnetic theory, which states that when circulating water is subjected to external forces through a magnetic field, it cuts magnetic field lines and generates electric charges and an electromotive force for the movement of electric charges in the water. As a result, physical changes such as current and potential differences occur, generating electrical energy. The higher the magnetic field strength, the denser the magnetic field lines, the faster the water moves, and the lower the electrical resistivity of water, the more electrical energy is generated, resulting in more significant physical changes in water. At this point, the water is magnetized.

This type of water can be called magnetic water or magnetized water. At the same time, it can be seen that effective magnetization of water is conditional. Specifically, in a circulating cooling water system, it is necessary to make the circulating water flow perpendicular and orthogonal to the magnetic field lines, and use a certain amount of water flow to cut the magnetic field lines with corresponding magnetic field strength and density. There should also be sufficient flow velocity to effectively magnetize the water. If the degree of magnetization is not sufficient and the properties of water do not undergo significant changes, there will be no significant effect in use. After a certain period of time, that is, after flowing through a certain distance, magnetized water will gradually consume the energy of magnetization through its own physical and chemical changes, as well as the reactions that occur during the contact between magnetized water and metal tube walls and other substances. Therefore, timely and appropriate application is very important.