JD-SY1 seepage and pressure monitoring is a technology and means to use a series of monitoring equipment to monitor and analyze groundwater seepage and pressure in real time. The purpose of this monitoring technology is to help people understand the groundwater hydrology and ensure the safety and stability of infrastructure and engineering. Seepage and pressure monitoring is generally composed of a seepage meter, a piezometer, a data collector and a monitoring center.
A seemometer is used to measure the seepage velocity of groundwater, while a piezometer is used to measure the seepage pressure of groundwater. These devices record groundwater seepage and pressure data in real time through monitoring points installed at different depths underground. The data collector is responsible for collecting, transmitting and processing monitoring data, and the monitoring center analyzes and warns through data processing software.
Seepage and pressure monitoring is essential for engineering construction and groundwater resource management. First of all, it helps to assess the hydrological situation of the groundwater and provides a scientific basis for infrastructure construction and groundwater resource development. By continuously monitoring the seepage and pressure of groundwater, the distribution and flow of groundwater resources can be scientifically evaluated, and a reasonable groundwater development and utilization plan can be formulated. Secondly, seepage and pressure monitoring plays an important role in preventing potential safety hazards caused by groundwater emergencies. Timely detection of abnormal changes in groundwater seepage and seepage pressure can give early warning of groundwater disasters and ensure the safety of related engineering facilities and underground space.
With the development of science and technology, modern seepage and pressure monitoring equipment has become more intelligent and accurate. Some monitoring equipment can realize remote monitoring and automatic early warning functions, which greatly improves the monitoring efficiency and accuracy. In addition, the advanced monitoring system can also achieve data sharing and linkage with the geological disaster early warning system and the engineering safety monitoring system to form a three-dimensional monitoring network.
In summary, seepage and pressure monitoring technology is of great significance in the field of hydrological science and engineering safety. Through real-time monitoring and analysis of groundwater seepage and seepage pressure, it is helpful to scientifically manage groundwater resources, warn groundwater disasters in advance, and ensure the safe operation of related engineering facilities. In the future, with the continuous innovation of intelligent technology, seepage and pressure monitoring technology will be more accurate and flexible, providing more powerful support for the insight of subsurface hydrological conditions and engineering safety early warning.