Atmospheric single-machine orbital plasma equipment is a new type of high-tech equipment, which can use plasma technology to decompose and remove harmful substances in the atmosphere to improve air quality. This paper will introduce the equipment from the aspects of equipment principle, working mode, application field and advantages.

Atmospheric stand-alone orbital plasma equipment is based on plasma technology, using high-energy electrons and ionized gases to generate plasma and direct it into the atmosphere to be treated. Plasma has a strong REDOX ability, which can decompose, remove and transform harmful substances in the atmosphere, so as to achieve the purpose of air purification.

The way the device works is relatively simple, it connects the plasma generator to the processing area via a track system, and the plasma generated by the plasma generator is conducted along the track system to the area of the atmosphere to be treated. An advanced control system is also set up inside the equipment, which can automatically adjust the generation and release of plasma according to the actual atmospheric pollution situation, so as to achieve the best treatment effect.

Atmospheric single-machine orbital plasma equipment can be widely used in various fields, especially for urban roads, factory discharge outlets, residential areas and other places where air pollution is more serious. It can effectively remove particulate matter, organic pollutants, harmful gases in the atmosphere, purify air quality, and improve people's living environment.

Compared with traditional air purification equipment, atmospheric single-machine orbital plasma equipment has many advantages. First, it does not need to rely on an external power source, and can work stably through its own energy conversion and storage system. Secondly, the equipment is small and can be easily installed in a variety of places without taking up too much space. In addition, the equipment has an automatic adjustment function, which can be operated intelligently according to the actual situation without manual intervention. The most important thing is that the operating cost of the equipment is low, only a small amount of electricity and gas supply can meet the demand, and long-term use has a high economic efficiency.

However, atmospheric stand-alone orbital plasma devices also face some challenges and limitations. First of all, when the equipment deals with a large number of pollutants, the amount and speed of plasma production may not meet the requirements, thus affecting the treatment effect. Secondly, when the equipment deals with high concentrations of harmful gases, certain by-products may be produced, which may have a certain impact on the environment. In addition, the cost of the equipment itself is high, and it will face certain pressure of marketing and competition.

In general, as an advanced air purification equipment, atmospheric single-machine orbital plasma equipment has broad application prospects and huge market potential. With the continuous development and progress of technology, it is believed that this equipment will be more and more perfect in the future, creating a clean and healthy living environment for people.