Prevent cavitation damage before it occurs.
Cavitation monitoring is critical to preventing system damage and minimizing expensive downtime. However, most sensors on the market only detect the symptoms of cavitation, often after costly damage has already occurred.
Unplanned downtime can cost data centers an average of $5,600 per minute.* Penalties for missing uptime targets can be in excess of $1,000 per minute.*
Moog’s cavitation sensor is different.
Moog’s ultrasonic cavitation sensor is built to actively detect cavitation in real-time, not just the symptoms. Using state-of-the-art technology, it provides real-time and actionable data that helps prevent cavitation damage before it occurs. This actionable data helps to minimize expensive downtime and maintain system health.
Real-time
The sensor actively detects cavitation in real-time, providing instant and actionable data that can help prevent damage before it occurs.
Performance
Reliable
Flexible
Easy
Cost savings
Technical Specifications
| CHARACTERISTIC: | PERFORMANCE / INTERFACE: |
| Operating Voltage | 24 VDC |
| Communication Signal Output | TTL logic output |
| Ambient Temperature Range | 10° to +60° C |
| Fluid Temperature Range | 0° to +100° C |
| Housing Material | 316 SS or 303 SS |
| Input/Output | See options for sizing |
| Flow Rate (GPM) | 1 – 70 GPM |
| Max. Operating Pressure (PSI) | 300 PSI |
| Certification | UL (pending) |
The sensor transducers are located in the fluid path of a connector tube. The tubing connectors are available in a range of diameters and a variety of connection types, including barbed fittings for flexible tubing, sanitary flange connections, and female / male NPT pipe connections.
OUR COMMITMENT TO YOU
Moog is committed to providing hands-on, comprehensive support to our customers from the initial design phase through installation and ongoing operation. With us, you will always have the ability to directly contact your Moog account manager and qualified engineering support.