+86 15898932201The automated runoff plot sediment monitoring equipment enables fully automated, comprehensive monitoring of the entire process of soil and water loss within slope runoff plots. Equipped with an open-channel flow sensor module and a sediment concentration sensor, the system employs both the equal-volume counting method and the weighing method; furthermore, it is capable of uploading monitoring data to a cloud platform in real time.
This equipment is a specialized device designed specifically for monitoring soil and water loss in slope runoff plots. Its core advantage lies in its ability to execute fully automated, end-to-end monitoring—eliminating the need for frequent manual intervention—thereby significantly enhancing monitoring efficiency and data accuracy while meeting the diverse monitoring requirements of various runoff plots. The device integrates multiple core components that work in concert to comprehensively cover every stage of soil and water loss monitoring, providing reliable data support for soil and water conservation research as well as ecological and environmental monitoring.
Equipped with an open-channel flow sensor module, the device automatically measures runoff flow rates, obviating the need for manual on-site measurements and thereby eliminating errors associated with manual operations. Simultaneously, it captures fluctuations in runoff flow rates in real time, ensuring the timeliness and integrity of the flow data. When paired with the sediment concentration sensor, the system collects real-time data on sediment content in the runoff, accurately capturing fluctuations in sediment levels across different time intervals to comprehensively reflect the severity of soil and water loss, thereby providing a precise basis for subsequent analysis.
Regarding measurement methodology, the device employs both the equal-volume counting method and the weighing method to measure runoff volume and sediment content. These two methods complement and cross-validate each other, effectively enhancing the accuracy and reliability of the measurement data while mitigating potential errors associated with relying on a single measurement method. Through this scientifically rigorous approach, the system achieves comprehensive and precise monitoring of the entire soil and water loss process within slope runoff plots—from the initial generation of runoff to the actual loss of sediment—ensuring that data for every single stage is accurately captured and recorded.
To facilitate data management and access, the system uploads sediment content and runoff volume data collected by the various sensors to a cloud platform in real time. Users can access the cloud platform to remotely view real-time monitoring data and historical records without needing to visit the site, thereby enabling remote oversight and dynamic management of soil and water loss conditions. This design not only streamlines the data organization and analysis workflow but also facilitates the timely detection of anomalies in soil and water loss, providing prompt reference information for the formulation and adjustment of soil and water conservation measures. The automated sediment monitoring equipment for runoff plots features convenient operation and stable performance; it requires no complex specialized expertise for installation and commissioning, is well-adapted to challenging outdoor monitoring environments, and is capable of sustained, stable operation over the long term. With its fully automated monitoring mode, precise measurement capabilities, and convenient data upload functionality, the system effectively resolves the inherent drawbacks of traditional manual monitoring—namely, low efficiency, high error rates, and cumbersome procedures. Consequently, it is widely applied in fields such as soil and water conservation monitoring, ecological environment management, and agricultural water conservancy, providing robust technical support for efforts to prevent and control soil erosion.
Article address:https://www.sqqx.net/en/news/852.html
