Overview
The Pall Trinity Micro Corp MDY4463G-4-H13 filter housing is engineered for compressed air treatment across hydraulic, pneumatic, pump, and plumbing applications. This cartridge filter housing provides efficient particle separation and air purification in industrial pneumatic systems. The Pall Trinity brand is recognized for quality filtration solutions in demanding industrial environments.
Key Features
- Designed for compressed air treatment applications
- Suitable for hydraulic, pneumatic, pump, and plumbing systems
- Cartridge-style filter housing design
- Compact, efficient housing construction
- New, open-box condition
Technical Specifications
The exact technical specifications for this unit (operating pressure, flow capacity, connection size, and dimensions) should be verified with Pall Trinity or your system integrator before installation. Please contact us or consult the manufacturer documentation for detailed pressure ratings, maximum flow rates, and inlet/outlet specifications.
Typical Applications
- Compressed air treatment and filtration
- Pneumatic system air purification
- Hydraulic fluid filtration systems
- Industrial pump inlet protection
- Plumbing system air removal
- Plant-wide air quality maintenance
Compatibility & Replacements
Compatible With
- Pall Trinity Micro cartridge filter elements (H13 grade)
- Standard industrial compressed air distribution networks
- Pneumatic and hydraulic system installations
- Manual or automated filter replacement systems
Replaces / Drop-In Replacement For
The MDY4463G-4-H13 is a specific Pall Trinity model in the 4463-series filter housing line. Related Pall Trinity housing models include MDA 4463, MDW 4463, and MLL 4463 variants. Verify compatibility with your system integrator before ordering as different dash numbers denote variations in thread size, material, and pressure rating.
Works With
- Pall Trinity H13 cartridge filter elements
- Standard NPT and metric threaded connections
- Manual cartridge replacement procedures
- Industrial compressed air systems and networks
