TUF Ultrasonic Gas Flow Meter Overview
The TUF gas ultrasonic flowmeter adopts a multi-channel design to minimize the impact of eddy currents and asymmetric flow, ensuring stable and accurate gas measurement. This high-precision and high-reliability metering instrument supports various communication methods to cater to different user needs. It is widely used for measuring natural gas, alkane, and industrial inert gases in petroleum, chemical, electric power, metallurgy, and city gas applications.
Benefits with Spectron
- Multi-Channel Accuracy
- Broad Rangeability
- Advanced Communication
- Smart Volume Correction
- Secure Valve Control
Key Metrics
The TUF Ultrasonic Gas Flow Meter is designed for high-precision gas measurement using a multi-channel approach, minimizing the impact of flow disturbances. It is compliant with ISO 17089, GB/T 18604, and AGA Report No.9 standards, ensuring global reliability. Equipped with intelligent fault detection, an ultra-low starting flow rate, and a high rangeability ratio of 160:1, it offers seamless monitoring and communication via NB-IoT and 4G. The optional ball valve design guarantees zero pressure loss, with smart remote operation for improved safety and efficiency.
Multi-channel ultrasonic measurement for enhanced accuracy.
Detects and compensates for eddy currents and asymmetric flow.
High turndown ratio of 160:1 for wide measurement capability.
Integrated digital temperature and pressure sensors for real-time data.
Supports NB-IoT, 4G, and remote monitoring for connectivity.
Zero pressure loss ball valve with remote operation and safety features.
Process / Working
The TUF Ultrasonic Gas Flow Meter operates using a multi-channel ultrasonic system, ensuring stable and accurate gas measurement. By detecting eddy currents and asymmetric flows, it enhances metering reliability. The base meter integrates intelligent fault detection and ultra-low starting flow rate capability. The EVC (Electronic Volume Corrector) section includes an automatic volume correction system, real-time gas temperature and pressure monitoring, and remote communication via NB-IoT and 4G. When adapted, the integrated valve control system utilizes a ball valve with a zero-pressure loss design, ensuring stable operation with remote or card-based control for enhanced gas safety.