Water Treatment Informatization System

The purpose of sewage treatment is to reduce pollution to natural environments such as rivers, lakes, and soil. In China, along with rapid economic development, the environment has been severely polluted. Various local regulations and systems have been promulgated to control pollution of rivers, coastal waters, and soil.

Environmental Context and Regulatory Requirements

Sewage treatment plays a critical role in mitigating pollution to natural ecosystems, including rivers, lakes, and soil. In China, rapid economic growth has brought significant environmental pressures, leading to widespread pollution in water bodies and land. To address this, local governments have enacted a series of stringent regulations and systems aimed at controlling pollution in rivers, coastal areas, and soil, making efficient and compliant sewage treatment a top priority for enterprises and communities alike.



Our Expertise in Sewage Treatment Processes

Our company possesses in-depth expertise in a wide range of sewage treatment technologies, with thorough research and practical experience in commonly used processes such as oxidation ditches, SBR (Sequencing Batch Reactor) tanks, and A²O (Anaerobic-Anoxic-Oxic) systems. Additionally, we have a strong grasp of advanced membrane treatment processes, which are increasingly adopted in recent water quality upgrading projects. This comprehensive understanding allows us to tailor solutions to diverse project needs, from small-scale partial upgrades to large-scale "Blue Sky and Clear Water" environmental initiatives.



Core Architecture of the Informatization System

Built on years of engineering practice, our sewage treatment informatization system is a distributed solution that integrates AI technology with PLC (Programmable Logic Controller) as its foundation. This architecture ensures both low operational costs and high reliability, striking a balance between economic feasibility and performance stability. The system’s distributed design enables flexible deployment across different treatment stages, from preliminary sedimentation to advanced filtration, ensuring seamless coordination between equipment and processes.




Intelligent Control and Cost Optimization

A key feature of the system is its application of advanced algorithms and precision control strategies. These technologies dynamically adjust chemical dosages—such as coagulants, disinfectants, and neutralizing agents—based on real-time water quality data, maintaining optimal treatment efficiency while minimizing the use of high-cost chemicals. For example, in pH adjustment processes, the system predicts fluctuations in inflow acidity/alkalinity and adjusts dosages proactively, reducing chemical waste by up to 30% compared to traditional manual control.





User-Friendly Operation and Data Management

The system is equipped with a 3D visualization user interface that provides operators with an intuitive overview of the entire treatment process, including real-time status of tanks, pumps, and sensors. Comprehensive data reporting 功能 generates detailed analytics on water quality indicators, energy consumption, and chemical usage, enabling managers to make data-driven decisions. These reports also simplify compliance documentation, ensuring easy tracking of metrics required by environmental regulatory bodies.




Dual Value: Compliance and Efficiency

Beyond ensuring effluent water quality meets strict regulatory standards—serving as a solid technical support for environmental compliance—the system also acts as a powerful tool for cost reduction and efficiency improvement. By optimizing resource usage, reducing manual intervention, and minimizing downtime through predictive maintenance alerts, it enhances the overall operational efficiency of sewage treatment facilities, transforming environmental protection efforts into a source of long-term economic value for enterprises and communities.