Bi-Metal Steam Trap is an efficient, self-regulating device designed to discharge condensate and air from steam systems while retaining valuable steam. This trap utilizes a bi-metal element that flexes based on temperature, providing automatic and precise control for condensate release. With its robust and simple design, the Bi-Metal Steam Trap is ideal for applications where energy efficiency and reliable operation are critical, including industrial steam systems, HVAC applications, chemical processing, oil and gas, and food processing.
Built from durable materials such as stainless steel, carbon steel, and alloy steel, this steam trap offers excellent resistance to corrosion, thermal shock, and high pressures. Engineered to meet stringent industry standards, it delivers consistent performance even in the most demanding environments.
Specifications:
- Size Range: 1/4 inch to 1-1/2 inches
- Pressure Rating: Up to 600 psi
- Body Material: Stainless Steel, Carbon Steel, Alloy Steel
- End Connection:
- Threaded (NPT/BSP)
- Flanged
- Design Standards:
- API 3C
- ASME B16.34
- ISO 9001
Manufacturers:
Our Bi-Metal Steam Traps are sourced from trusted manufacturers to ensure efficient operation, durability, and reliable condensate management.
Applications:
Suitable for applications where efficient condensate removal and automatic operation are crucial, including:
- Industrial Steam Systems
- Chemical and Petrochemical Processing
- HVAC and Building Services
- Food and Beverage Processing
- Oil & Gas Processing Facilities
These steam traps offer precise condensate discharge with minimal energy loss, enhancing overall system performance and efficiency.
For more information on our Bi-Metal Steam Traps or to discuss specific application requirements, contact us today. Our steam traps provide reliable, energy-efficient solutions for industrial operations.
| Technical Parameter | Standard Specifications & Capabilities |
|---|---|
| Trap Profile & Mechanics | Thermostatic Bi-Metal Steam Trap (Employs premium bimetallic disc plates that expand/contract to automatically discharge condensate at a precise sub-cooled temperature) |
| Nominal Size Range | 1/4 Inch to 1-1/2 Inch (DN8 to DN40) |
| Pressure Design Ratings | Standard to High-Pressure series optimized up to 600 PSI (ASME Class 150 / Class 300 / Class 600 equivalent limits) |
| Body & Bonnet Metallurgy | Cast Carbon Steel (ASTM A216 WCB/A105), Forged Alloy Steel (ASTM A182 F11/F22), Stainless Steel (ASTM A351 CF8/CF8M) |
| Bimetallic Element Matrix | Corrosion and thermal-shock resistant bimetal disc profile layers designed for consistent deflection under heat load patterns |
| Seat & Internal Trim Assembly | Hardened Stainless Steel valve heads and seating faces; features built-in titanium or stainless steel non-return protection mechanism |
| Pipeline Connections | Threaded NPT/BSP (ASME B1.20.1), Socket Weld (ASME B16.11), Flanged RF (ASME B16.5) |
| Design Compliance Codes | API 3C, ASME B16.34, ISO 9001 certified production control management systems |
| Testing Standards Met | API 598 structural hydro-testing and operational seating integrity verification checks |
| B2B Quality Traceability | EN 10204 3.1 Mill Test Certificates (MTC), heat codes, and complete QA/QC compliance trail tracking |
| End-User Asset Approvals | Procured and certified for distribution inside regional utilities run by SWCC, NWC, Saudi Aramco, ADNOC, SABIC, MARAFIQ, and BAPCO Energies |
