Description
Product details
Ultrasonic flow measurement leverages advanced, non-invasive sensing technology to deliver precise volumetric flow data across a diverse range of liquid process media. Operating on the transit-time differential principle, this technique measures the time delay between upstream and downstream ultrasonic signal transmission, enabling accurate determination of flow velocity without physical intrusion into the medium. This methodology is ideally suited for clean, single-phase liquids and offers significant advantages including high accuracy, minimal maintenance requirements, and seamless integration into existing pipeline infrastructure. Key Features: 1)Non-Invasive Measurement 2)Transit-time differential technology enables precise flow velocity and volumetric flow rate measurements. 3)Effective for low to high flow velocities. 4) No Pressure drop since there's no obstruction in the flow path. 5)Low Maintenance. 6)Capable of detecting flow in both directions. 7)Suitable for Various Pipe Materials Typical Applications: Water and Wastewater Monitoring Cooling and Heating System Monitoring (HVAC) Pump and Valve Testing Energy Management and Efficiency Monitoring Chemical and Pharmaceutical Process Control Leak Detection and Pipe Integrity Testing Custody Transfer (in high-accuracy variants) Industries Served 1) Water and Wastewater Treatment 2) Oil & Gas 3) Power Generation 4) Chemical and Petrochemical 5) Food and Beverage 6) Pharmaceuticals and Life Sciences 7) HVAC and Building Automation 8) Marine and Shipbuilding 9) Pulp and Paper 10) Mining and Metals The Dusaut DSONIC Portable Ultrasonic Flowmeter is a highly versatile, accurate, and maintenance-free solution for temporary flow monitoring needs. Whether for commissioning, troubleshooting, or auditing, its robust design and advanced measurement capabilities make it an indispensable tool for professionals across a wide range of industries. With plug-and-play operation, quick setup, and proven reliability, DSONIC empowers engineers and technicians to make informed, real-time decisions—without disrupting their process.
