1 inch Brass Y Strainer

Factory price 1" (DN25) brass Y-type strainer with 1.6Mpa working pressure and the threaded connection is installed in the pipe and acts as a mechanical filter to capture particles such as sediment, scale and debris that may be present in the fluid.

Specifications

• Model: ATO-ML-8202
• Nominal Diameter: DN25 (1 inch)
• Main Body Material: Brass
• Type: Y Type Strainer
• Nominal Pressure: 1.6Mpa
• Thread: Complies with ISO 228 Standard
• Applicable Temperature: -10℃≤T≤120℃
• Working Medium: Water, Oil, Non-Corrosive and Non-Combustible Gas

Dimensions (Unit: mm)

Applications

Y-type strainers can remove impurities, debris, and solid particles from fluid or gas pipelines in industrial and commercial applications. They are typically used in applications where a high flow rate is required, and where there is a risk of damage to equipment or processes from the presence of solid particles.

Tips: What is a brass Y strainer?

A Brass Y strainer is a specialized plumbing device designed to filter and remove solid particles from fluid flow within pipelines. Its distinctive Y-shaped configuration allows for efficient filtration while maintaining minimal flow resistance. Constructed from durable brass, the Y strainer is chosen for its corrosion resistance and robustness, making it suitable for a variety of applications, including water systems, HVAC setups, and industrial processes.

The device features a cylindrical straining element, often a mesh or perforated screen, positioned within the Y-shaped body. As fluid passes through the strainer, the debris and particulate matter are captured by the straining element, preventing them from progressing downstream. Installation is typically recommended upstream of sensitive components like pumps and valves. Regular maintenance, including inspection and cleaning, is crucial to ensure optimal performance and prevent clogging. Brass Y strainers are versatile, offering reliability in filtering contaminants from liquids, making them an integral component in systems where the purity and efficiency of fluid flow are paramount.