Water quality monitoring is a primary task within environmental monitoring. It accurately, timely, and comprehensively reflects the current status and development trends of water quality, providing a scientific basis for water environment management, pollution source control, and environmental planning. It plays a crucial role in water environmental protection, pollution control, and maintaining water health.
Shanghai Chunye is committed to the service tenet of "transforming ecological and environmental advantages into eco-economic benefits." Its business scope primarily focuses on the research and development, production, sales, and service of a series of products, including industrial process control instruments, online water quality automatic monitors, VOCs (Volatile Organic Compounds) online monitoring systems and TVOC online monitoring alarm systems, IoT data acquisition, transmission and control terminals, CEMS flue gas continuous monitoring systems, and dust, noise, and air monitors.
As requirements for monitoring accuracy and real-time capability in water environment governance escalate, efficient and reliable online monitoring equipment has become a core support for environmental protection. Recently, the T9010Ni Nickel Online Automatic Water Quality Monitor, customized by Chunye Technology for a Shanghai industrial company, completed installation, commissioning, and was put into operation. This fills the gap in real-time nickel content monitoring for the enterprise, establishing a robust technical defense line for compliant discharge and water quality control.
The installation strictly followed the specifications of the T9010Ni Nickel Online Automatic Water Quality Monitor operation manual. A customized installation plan was developed based on the production drainage characteristics and monitoring requirements of the Shanghai industrial company. Considering the location of the enterprise's drainage outlet and monitoring needs, the monitoring point was selected in an area close to the wastewater discharge outlet, with the distance to the sampling point controlled within 50 meters. This effectively shortens sample water transmission time, reduces analysis delay, and ensures monitoring data reflects drainage water quality in real-time.
During the equipment installation phase, the technical team first completed unboxing verification. After confirming the T9010Ni monitor and accompanying components were intact and undamaged, they reserved sufficient operational space as per operational standards—≥600mm on both left and right sides, and ≥1000mm in front—to facilitate future maintenance and inspection. For pipeline laying, corrosion-resistant rigid PVC pipes were selected, employing a sloping downward design without protrusions, depressions, or unnecessary elbows to prevent water retention in pipes and potential freezing issues in winter. Additionally, a stainless steel filter screen with 1.0-2.0mm apertures was added outside the submersible pump's existing filter screen to prevent particulate matter in the water from clogging the pipelines or damaging the equipment.
For electrical connections, the team strictly matched the enterprise's 220V±10% AC power supply conditions. A ground fault circuit interrupter was installed, and reliable grounding was achieved to effectively prevent electric shock risks. Data transmission lines were connected via RS232 and RS485 interfaces to ensure monitoring data could be uploaded in real-time to the enterprise's central control system, meeting remote viewing and management needs. After installation, technicians performed initialization via the device's touchscreen. They configured an appropriate measurement cycle (less than 20 minutes) and automatic calibration interval (set as requested to once per 7 days), and conducted standard sample verification. This ensures the equipment meets nickel content monitoring requirements within the 0~10mg/L range, with a detection limit as low as 0.05mg/L and a resolution of 0.001mg/L. Both accuracy and repeatability comply with industry standards.
The successful completion of this installation and collaboration demonstrates both the product performance and service capability of Chunye Technology, while also laying a foundation for deepening its presence in the water quality monitoring market for local Shanghai enterprises. Moving forward, Chunye Technology will continue to focus on technological innovation, providing precise and reliable water quality monitoring solutions for more enterprises, and supporting water environment governance and corporate green development.
Post time: Feb-06-2026