Flanged High Pressure Y Type Strainer: Dual Considerations of Filtration Accuracy and Flow

Filtration Accuracy: The Line of Defense for Fluid Purity
Filtration accuracy is an important indicator of filter performance, which determines the size of particles that the filter can intercept. In high-pressure fluid systems, particles can not only damage equipment, but also cause serious safety issues. Choosing the right filtration accuracy is crucial.

Filtration accuracy is usually measured in microns (μm), ranging from a few microns to hundreds of microns. When choosing, it is necessary to determine it based on the specific needs of the system. In the food processing industry, the requirements for fluid purity are extremely high, and filters with a filtration accuracy of less than 5 microns may need to be selected. In some industrial cooling systems, the tolerance for particles is higher, and filters with a filtration accuracy of tens of microns or higher may be selected.

It is worth noting that the higher the filtration accuracy, the better. Too high a filtration accuracy may increase the resistance of the fluid passing through the filter, thereby affecting the flow rate and system efficiency. When choosing a filtration accuracy, it is necessary to weigh the relationship between fluid purity and system efficiency.

Flow rate: ensuring the efficiency of system operation
Flow rate is another key factor to consider when selecting a Flanged High Pressure Y Type Strainer. It determines the amount of fluid that the filter can handle per unit time. If the flow capacity of the selected filter is lower than the system requirements, it will cause the fluid pressure to drop and may even cause the system to shut down.

The flow capacity depends on the port size and internal structure of the filter. When selecting, you need to ensure that the port size of the filter matches the port size of the pipe in the system. You also need to consider the internal structure of the filter, such as the number and arrangement of the filter screens, which will affect the flow rate.

In order to ensure that the selected filter can meet the flow requirements of the system, it is recommended to perform detailed flow calculations before selection. This includes determining the maximum flow rate of the system, the flow coefficient of the filter, and the pressure loss of the fluid passing through the filter. Through these calculations, you can ensure that the selected filter can provide sufficient flow and maintain low pressure loss when the system is running.

Comprehensive consideration: The role of other key factors
In addition to filtration accuracy and flow rate, there are other key factors to consider when selecting a flanged high pressure Y type strainer.

Working pressure: Make sure the pressure rating of the selected filter matches the working pressure of the system. Too high an operating pressure may cause filter damage, while too low a pressure rating may not meet the needs of the system.
Media type: Consider the type of media that the filter will handle, such as liquid, gas or steam. Different media have different requirements for the material and sealing performance of the filter.
Material and corrosion resistance: Select materials suitable for the system media and environment. Common materials include stainless steel, cast iron, carbon steel, etc. It is also necessary to consider whether the material of the seal is suitable for the system media and temperature range.
Flange connection and size: Confirm whether the flange connection of the filter meets the flange standards of the system, such as ANSI B16.5, DIN, etc. It is also necessary to ensure that the port size of the filter matches the port size of the pipe in the system.
Temperature range: Confirm whether the operating temperature range of the filter meets the needs of the system. Some filters may have specific temperature limits, which need to be noted when selecting.
Brand and supplier selection: Choose a supplier with good brand reputation and reputation to ensure the quality and after-sales service of the filter. It is also necessary to consider the supplier's technical support and after-sales service capabilities.