In the water treatment industry, transit-time ultrasonic flowmeters have demonstrated strong applicability and significant advantages.

In the raw water transportation phase, raw water is often sourced from natural water bodies such as rivers and lakes, with complex water quality that may contain impurities like sediment and aquatic plants. Transit-time ultrasonic flowmeters, free of mechanical moving parts, are immune to entanglement and wear caused by impurities. They can stably achieve high-precision measurement of large-flow raw water, helping water treatment plants accurately monitor total water intake and reasonably schedule subsequent treatment processes.

During the water plant treatment stage, whether in process links such as coagulation, sedimentation, filtration, or disinfection, precise control of the dosing amount of different treatment chemicals is required to ensure treatment effects and water quality safety. Transit-time ultrasonic flowmeters can accurately measure the flow rate of chemicals in dosing pipelines. By connecting with automatic control systems, they enable closed-loop control of chemical dosing, adjusting chemical usage in real time according to changes in raw water quality. This not only ensures treatment effects but also reduces chemical costs and minimizes secondary environmental pollution.

In the clean water transportation and distribution phase, transit-time ultrasonic flowmeters can real-time monitor flow changes in urban water supply pipe networks, helping water supply enterprises promptly detect pipeline leaks, abnormal water usage, and other conditions. Their high-precision measurement performance can accurately capture small flow variations, and they are equally effective for monitoring flow in pipeline terminal areas, providing reliable data support for fine-grained management of water supply networks and ensuring stable and efficient urban water supply.

Additionally, transit-time ultrasonic flowmeters feature convenient installation. They can be deployed via clamp-on or insertion mounting methods without interrupting pipeline water flow, significantly reducing the impact of installation and maintenance on the normal operation of water treatment systems and lowering construction and time costs. Meanwhile, their digital communication interfaces facilitate integration with water plants’ SCADA (Supervisory Control and Data Acquisition) systems, enabling remote data transmission and real-time monitoring, and improving the intelligentization level of water plant operation and management.