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.
This 317 stainless steel wireless monitoring steam trap integrates a wireless monitoring module into its traditional steam trap operation. When condensate enters the valve body, the internal mechanism automatically opens to drain the condensate and closes promptly when steam arrives. Wireless sensors collect real-time data on temperature, pressure, and discharge status, transmitting this data wirelessly to a monitoring system to determine if the steam trap is functioning correctly. This design enables online monitoring, fault warning, and energy consumption analysis, reducing manual inspections and improving the reliability and energy efficiency of the steam system.
| 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 |
Constructed from high-quality SS316 stainless steel, ensuring excellent corrosion resistance and long-lasting performance in high-temperature steam environments.
Inverted bucket design enables efficient condensate discharge while preventing steam loss, maintaining optimal energy efficiency.
Wireless monitoring capability allows real-time remote tracking of trap performance and automatic alerts for maintenance needs.
Robust and reliable operation under varying pressures and loads, suitable for both superheated steam and saturated steam applications.
Compact and easy to install, compatible with standard pipe fittings, reducing downtime and simplifying maintenance procedures
steam traps are widely used in chemical, petroleum, pharmaceutical, and laboratory steam pipelines. For example, in the heating pipelines of chemical experimental equipment, they are used for short-term testing of condensate drainage performance and to discharge condensate, ensuring stable steam system temperature while facilitating observation and verification of pipeline operation.
Working Principles
This 317 stainless steel wireless monitoring steam trap integrates a wireless monitoring module into its traditional steam trap operation. When condensate enters the valve body, the internal mechanism automatically opens to drain the condensate and closes promptly when steam arrives. Wireless sensors collect real-time data on temperature, pressure, and discharge status, transmitting this data wirelessly to a monitoring system to determine if the steam trap is functioning correctly. This design enables online monitoring, fault warning, and energy consumption analysis, reducing manual inspections and improving the reliability and energy efficiency of the steam system.
Feature and Specification
| 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
Constructed from high-quality SS316 stainless steel, ensuring excellent corrosion resistance and long-lasting performance in high-temperature steam environments.
Inverted bucket design enables efficient condensate discharge while preventing steam loss, maintaining optimal energy efficiency.
Wireless monitoring capability allows real-time remote tracking of trap performance and automatic alerts for maintenance needs.
Robust and reliable operation under varying pressures and loads, suitable for both superheated steam and saturated steam applications.
Compact and easy to install, compatible with standard pipe fittings, reducing downtime and simplifying maintenance procedures
Application
steam traps are widely used in chemical, petroleum, pharmaceutical, and laboratory steam pipelines. For example, in the heating pipelines of chemical experimental equipment, they are used for short-term testing of condensate drainage performance and to discharge condensate, ensuring stable steam system temperature while facilitating observation and verification of pipeline operation.
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