420g Ozone Generator

Industrial ozone: large industrial ozone generators, corona discharge and industrial water treatment

In today's industrial field, water treatment is an important link to ensure production safety and environmental protection, and the continuous innovation of its technology and methods is particularly important. Among them, industrial ozone technology plays an increasingly important role in the field of industrial water treatment with its high efficiency and environmental protection. This article will explore in depth the generation principle of industrial ozone - especially large industrial ozone generators and their core corona discharge technology, as well as the application of these technologies in industrial water treatment.

#### Basic principles of industrial ozone

Ozone (O₃), as an allotrope of oxygen, has extremely strong oxidizing ability, and its oxidation potential is much higher than common oxidants such as chlorine and potassium permanganate. This strong oxidizing property enables ozone to quickly decompose organic matter in water, kill bacteria and viruses, remove odor and color, and does not produce harmful by-products. Therefore, it is widely used in industrial water treatment.

#### Industrial large-scale ozone generator: core equipment

The generation of industrial ozone depends on ozone generators, especially industrial large-scale ozone generators for large-scale water treatment needs. These devices convert dry, clean air or oxygen into ozone through a specific process. Its core components mainly include high-voltage electrodes, dielectric tubes, cooling systems and control systems.

- **High-voltage electrodes and dielectric tubes**: Inside the ozone generator, the high-voltage electrode and the dielectric tube (usually made of glass or ceramic) form a discharge gap. When high voltage electricity acts on this gap, a corona discharge is formed, which ionizes and excites the gas molecules flowing through, thereby forming ozone molecules.

- **Cooling system**: A large amount of heat is generated during the corona discharge process. In order to keep the equipment running stably, an efficient cooling system is essential. It usually uses water cooling or air cooling to ensure that the internal temperature of the generator is controlled within an appropriate range.

- **Control system**: Modern industrial large-scale ozone generators are equipped with advanced control systems that can monitor and adjust key parameters such as ozone production, gas flow, voltage and current in real time to achieve automated operation and energy efficiency optimization.

#### Corona discharge: the secret of ozone generation

Corona discharge is the core mechanism of industrial ozone generation. When a sufficiently high voltage is applied between two electrodes, gas molecules are accelerated by the electric field, and some electrons gain enough energy to collide with gas molecules, causing molecular ionization and excitation. In an oxygen environment, these high-energy electrons collide with oxygen molecules, first forming oxygen atoms (O), which then combine with oxygen molecules to form ozone (O₃).

The efficiency and stability of corona discharge directly affect the output and quality of ozone. Therefore, optimizing electrode design, dielectric material selection, and discharge parameter adjustment are the keys to improving the performance of ozone generators.