Peristaltic pump is a special type of pump widely used in the industrial field, and its unique working principle makes it have excellent accuracy and reliability in many applications. In this paper, the accuracy of peristaltic pump will be analyzed comprehensively, and its advantages in industrial applications will be discussed.

First of all, the accuracy of peristaltic pumps depends on their unique working principle. The peristaltic pump achieves liquid delivery by compressing and releasing a peristaltic sleeve. This mode of work enables the peristaltic pump to achieve high accuracy, making it widely used in many fields requiring high-precision liquid transportation, such as chemical, pharmaceutical, food and other industries.

Secondly, the peristaltic pump has excellent adjustability and control. By adjusting the flow rate and pressure of the peristaltic pump, accurate liquid transportation can be achieved according to actual needs. This makes peristaltic pumps a distinct advantage in processes that require precise control of liquid flow and concentration, such as preparation and delivery in laboratory and chemical production processes.

In addition, the peristaltic pump also has a high corrosion resistance and wear resistance. Since the transmission parts of the peristaltic pump are completely isolated from the liquid being transported, the peristaltic pump can effectively avoid the damage and shortened life of the pump caused by liquid corrosion and friction of the traditional pump. This makes peristaltic pumps perform well when dealing with aggressive media and liquids with particles, and extends the service life of the pump.

The peristaltic pump also has a high self-priming capacity. Since the liquid transport of the peristaltic pump is achieved by the extrusion of the peristaltic sleeve, the peristaltic pump has a strong self-priming capacity. This allows peristaltic pumps to establish stable fluid delivery in a very short period of time and to perform well when dealing with high viscosity liquids and gassy liquids.

In addition, the peristaltic pump also has the characteristics of low shear force and low pulsation. Because of the way peristaltic pumps work, there is almost no shear and pulsation in the flow of the liquid within the pump, which makes peristaltic pumps ideal for handling applications that are sensitive to fluid shear and pulsation, such as cell culture and drug delivery in the biomedical field.

In summary, the peristaltic pump has excellent accuracy and reliability, and has demonstrated its irreplaceable advantages in many industrial applications. With the continuous progress of science and technology and the continuous expansion of application fields, it is believed that the development prospect of peristaltic pump will be broader.