The application of side-mounted single flange level transmitterin the monitoring of deaerator level helps the safe and efficient operation of power plant
In thermal power plants, nuclear reactors, and large industrial boiler systems, deaerators are critical components designed to remove dissolved oxygen from feedwater, preventing corrosion in pipelines and equipment. The stability of liquid level control directly impacts deaeration efficiency and system safety. Traditional methods like float-type or differential pressure level gauges often experience drift or mechanical failures under high-temperature and high-pressure conditions. Yigeqi's side-mounted single-flange level transmitter, leveraging its structural advantages and reliable performance, has gradually become the preferred choice for customers.
Why choose the side-mounted single-flange level transmitter?
1. High-temperature and high-pressure adaptability:
The deaerator operates at temperatures up to 150-200℃ with pressures exceeding 1.0MPa. This transmitter features a specialized isolation diaphragm and high-temperature-resistant fluid, ensuring long-term stable operation under extreme conditions.
2. Flange-side installation design:
Directly mounted on the deaerator's side wall through flanges eliminates space constraints for top-mounted installations while reducing measurement errors caused by steam interference.
3. High precision and maintenance-free characteristics:
Utilizing single-crystal silicon sensor technology, it delivers exceptional accuracy without mechanical moving parts, significantly lowering maintenance requirements.
After the side-mounted single flange level transmitter is applied to the deaerator, the fluctuation of level control error is reduced, the failure rate is decreased, and the annual maintenance cost is saved. Through the seamless connection of 4-20mA + HART protocol and DCS system, remote real-time monitoring is achieved.
The precise control of the liquid level of the deaerator is the key to the energy efficiency and safety of the power plant. The high temperature resistance characteristics of the side-mounted single flange level transmitter and the anti-interference design of the side-mounted level transmitter provide a better solution for this field.
