The cabinet-type water quality online system has the characteristics of high stability, superior repeatability, and multi-function. water quality online system can accurately measure solution parameters such as pH, conductivity, dissolved oxygen, turbidity, heavy metal ions, total phosphorus.

The large-scale water quality monitoring system floating station is an intelligent monitoring equipment that can adapt to marine monitoring operations. The floating water quality monitoring equipment can float on the sea for a long time to monitor the water quality environment in real time.

The Hydrological monitoring station is suitable for remote monitoring of real-time water and rain conditions of rivers and reservoirs. Through the hydrological monitoring system, the management department can timely grasp the hydrological conditions of rivers. Hydrological monitoring station and early warning system plays an important role in timely warning flood disaster and avoiding human.

Choosing the Right Water Quality Monitoring Equipment

When selecting a water quality monitoring system, it is important to consider several factors to ensure that the system meets the specific needs of your application. Here are some key considerations to keep in mind when choosing the right water quality monitoring system:

Parameters: Determine the specific parameters, such as pH, dissolved oxygen, turbidity, conductivity, temperature. Make sure the monitoring system can measure all the require parameters accurately.

Accuracy and reliability: Look for a monitoring system that provides accurate and reliable measurements. Consider the calibration and maintenance requirements of the system to ensure consistent performance.

Data logging and analysis: Choose a monitoring system that can store and analyze data over time. This will allow for trend analysis and identification of potential issues or changes in water quality.

Real-time monitoring: Consider whether real-time monitoring is necessary for your application. Some systems offer continuous monitoring and real-time data transmission, which can be valuable for immediate response to changes in water quality.

Portability and ease of use: Depending on the application, consider the portability and ease of use of the monitoring system. For field monitoring or temporary deployments, a portable and user-friendly system may be preferable.

Connectivity and integration: Determine if the monitoring system needs to integrate with other data collection or management systems. Consider the connectivity options, such as wireless communication or data transfer protocols, to ensure compatibility with existing infrastructure.

Cost and maintenance: Evaluate the initial cost of the monitoring system as well as ongoing maintenance and operational costs. Consider the long-term value and reliability of the system in relation to the investment.

Regulatory requirements: Ensure that the monitoring system meets any regulatory requirements or standards for water quality monitoring in your region.

JXCT Technology offers Data loggers that connect to environmental sensors to continuously record and transmit data for efficient real-time monitoring, accessible through Data Web data centers for easy storage.

In many of their projects, data buoys are used. For open water and nearshore projects, they are equipped with water data acquisition instruments. In addition, due to the low power consumption and the built-in solar panels on the buy, the small size also means that JXCT's costs are lower.

IoT Technology Equipment at Work

As a consulting business, Stantec acts as the intermediary between suppliers like JXCT and clients that are looking to construct water monitoring systems, procuring products on an as-needed basis.

The water quality of floating river can be automatically monitored in the target water area, and the trend grid of water quality monitoring can be formed, which is conducive to the formation of perfect long-term river management.

Downstream from the pond, a  floating water quality monitoring equipment was installed, also using IOT water quality sensors, to monitor the same parameters. NexSens Technology aided in the measurement of parameters, including water temperature, salinity, pH, turbidity, depth, oxygen levels, and more. The plant has now been safely closed, although some monitoring still takes place.

Similar projects overseen by JXCT using the same NexSens equipment include closures of ash ponds in various states to support the industry’s goals for transitioning to new energy solutions.

Conclusion

We have worked in the field of water quality monitoring for such a long time that he understands the scale of the work undertaken by monitoring equipment.

Water quality monitoring systems regularly undertake large and complex water quality projects with impacts beyond the immediate area. Water is essential to our life. But it is volatile, and small changes can dramatically alter the way humans use water. In order to gain an in-depth understanding of water quality, every step needs to be careful, starting with choosing the right equipment.