HCS_0001_Hygienic Component Solutions Catalog_Rev7.0 (2024)

BENEFITS · Tangential inlet to promote adequate cleaning velocities within body for elimination of dead leg concerns.

· Unique patent pending strainer element cap design – reduces internal body scratching during servicing of strainer. · Standard 360° sight glass for particulate inspection without breaking process connection. · Ergonomic designs for strainer handle and element cap removal. · Particulates captured within the interior of the basket element for complete and contained removal. · Removable element end cap allows for easy flushing of basket. · Angle-line design allows for element removal without breaking process line components. · Tuf-Flex ® Tri-Clamp gaskets reduce “sticking” of seal when servicing strainer. · Materials of construction, surface finishes, certifications, and documentation package meeting industry standards. · Designed for low pressure drop. · Multiple inlet orientations and sizes to meet your process needs. · Eccentric fittings for full drainability in multiple installation orientations. · Optional pressure gauges or ports for monitoring particulate loading. · Optional interchangeable mesh underlays for finer straining. GOOD TO KNOW · Hygienic ID Finish: 20 µin Ra EP · Welds: Orbitally Welded where applicable · Full Assembly Maximum Pressure Rating: 125 psi · Maximum Temperature Rating: 250 °F · Maximum Pressure Drop Rating (Across Strainer Element): 40 psi · Weight: 21-25 lbs (dependent on options) · Differential Pressure Connections (Optional): 2.0" TC · Relief / Sample Valve (Optional): Welded to strainer element cap with 10mm hose barb connection outlet · Wetted Materials: - Strainer Body and Element: 316Lss - End Cap Material: Polyetherimide (PEI) or polyether ether ketone (PEEK) - Element Retainer 0-Ring: Teflon™ Encapsulated Silicone - Element End Cap O-Ring: EPDM - Tri-Clamp Gaskets: Tuf-Flex ® PTFE or EPDM - Sight Glass Seals: FKM - Mesh Underlays (Optional): 316Lss - Relief / Sample Valve (Optional): Teflon Seat / Viton Elastomers

Optimized Fluid Dynamics Design with CFD Modeling

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HCS-0001.7