STAINLESS STEEL 317 Brand Ball Float Thermostatic Wireless Steam Trap
steam trap are available in threaded and flanged types, with various sizes and pressure ratings. They are high-temperature and corrosion-resistant, offer sensitive opening and closing, and provide stable drainage, making them suitable for steam systems.
Working Principles
This steam trap, uses a float and a temperature control element to remove condensate from steam systems. When steam enters the valve body, the float rises and closes the valve to prevent steam leakage. When condensate accumulates, the float descends, opening the valve to drain the condensate. Simultaneously, the temperature control element can release air or non-condensable gases. This working principle ensures continuous and efficient operation of the steam system, avoids water hammer and condensate buildup, optimizes heat utilization, and features a simple structure for easy maintenance and testing.
Stainless Steel Steam Ttap Specification Chart
| Body Material | SS304 / SS316L Stainless Steel |
| Connection Type | Clamp / Threaded / Welded |
| Nominal Size | DN15 – DN50 (1/2" – 2") |
| Design Pressure | PN16 / PN25 / PN40 |
| Working Pressure | 16 – 40 bar |
| Working Temperature | 220 – 400°C |
| Applicable Media | Saturated Steam, Condensate |
| Surface Finish | Ra ≤ 0.8 μm |
| Standards | DIN / SMS / ISO / 3A |
Features
High-quality stainless steel construction ensures long-lasting durability and resistance to corrosion in various industrial environments.
Ball float mechanism provides precise condensate discharge and maintains consistent steam system performance.
Thermostatic control enables automatic adjustment to varying steam pressures and temperatures for efficient operation.
Wireless monitoring capability allows real-time performance tracking and predictive maintenance alerts.
Compact and hygienic design facilitates easy installation, cleaning, and integration into sanitary steam systems
Application
steam traps are widely used in food processing, pharmaceutical, chemical, and paper industries. In food plants, they remove condensate from boilers and heating pipes, ensuring uniform steam heating, improving production efficiency, and preventing equipment corrosion and water hammer.
