Y Strainer are essential filtration components in piping systems, designed to remove unwanted particles and debris from liquids, gases, or steam. Featuring a Y-shaped design, these strainers effectively protect pumps, valves, and other downstream equipment from damage caused by contaminants, ensuring reliable system operation and reduced maintenance needs. Y Strainers are commonly used in industries such as oil & gas, chemical processing, water treatment, and HVAC, where system cleanliness and efficiency are paramount.
Constructed from robust materials like carbon steel, stainless steel, or alloy steel, Y Strainers are built to withstand high pressures and temperatures. They come equipped with a mesh or perforated screen that captures particles, providing efficient filtration and easy maintenance through a blow-off valve or removable cap for quick cleaning.
Specifications:
- Size Range: ½ inch to 24 inches
- Pressure Ratings: Class 150 to Class 2500
- End Connection:
- Flanged (ASME B16.5)
- Threaded (ASME B1.20.1)
- Socket Weld (ASME B16.11)
- Mesh Size: Customizable per application requirements
- Design Standards:
- ASME B16.34
- API 602
- ISO 9001
Manufacturers:
- Eaton Y Strainer
- SVR Y Strainer
- FLOWORK Y Strainer
- LANDEE Y Strainer
We source high-quality Y Strainers from trusted manufacturers worldwide, ensuring superior performance and reliability across a range of applications.
Applications:
Y Strainers are commonly used in systems where particle filtration is essential for smooth operation, including:
- Oil & Gas Pipelines
- Chemical Processing Systems
- Water and Wastewater Treatment
- Steam Systems
- HVAC Systems
Their robust design and filtration efficiency make them ideal for applications requiring protection of sensitive equipment from particulate damage.
For more information on our Y Strainers or to discuss your specific filtration requirements, contact us today. Our Y Strainers offer dependable filtration and protection, extending the lifespan of your system components and improving overall operational efficiency.