Instant Response: Reagent-Free Full-Spectrum Multi-Parameter Water Quality Monitor

Water is the source of life and a key factor in maintaining ecological balance. With the rapid development of industrialization and urbanization, water quality issues have become increasingly severe. Effectively monitoring and protecting water resources has become a shared challenge.

The full-spectrum water quality monitor by Aopu Tiancheng is a new generation of eco-friendly sensors designed for various applications. This portable and cost-effective device integrates multiple parameters for real-time water quality testing, automation, and ease of use. Featuring a rod-shaped structure and an open-flow cell, it comes with an automatic cleaning system, allowing it to be directly immersed in water for in-situ online monitoring. The test process requires no chemical reagents, minimizing maintenance and ensuring a long instrument lifespan.

ATE2000

The product features a rod-shaped structure and an open-flow cell with an automatic cleaning system, allowing for in-situ online water quality monitoring. The testing process is reagent-free, reducing maintenance and avoiding the drawbacks of traditional reagent-based spectrophotometers, such as frequent reagent replacement, long measurement times, high failure rates, and the need for building infrastructure.

The ATE2000 is crucial in water quality monitoring, industrial production, environmental monitoring, and laboratory applications. It plays a significant role in water resource protection, environmental conservation, and emission management.

Cost-effective management:

Using the reagent-free full-spectrum water quality monitor for water quality assessment, a single device can measure multiple parameters. Compared to traditional water stations, it eliminates the need for infrastructure, reducing both construction and operational costs. It enables rapid deployment, making it easier for users to build a broader water quality monitoring network.

In-situ Monitoring for Enhanced Accuracy

Utilizing UV-Vis absorption spectroscopy principles, this technology enables in-situ water quality monitoring, ensuring more accurate and authentic water quality data.

Eco-Friendly Reagent-Free Operation

The UV-Vis absorption spectroscopy method eliminates the need for chemical reagents, unlike traditional water stations, which avoids secondary pollution. This approach is more environmentally friendly and supports real-time monitoring.

Enhanced Accuracy with Beam Compensation

Featuring a dual-beam compensation design, the system is less affected by external environmental interference, providing high sensitivity, signal-to-noise ratio, and linearity. It also allows for real-time online calibration.

Stable Pulse Xenon Lamp

The pulse xenon lamp supports up to 109 measurements with high stability and a long lifespan.

Working Principle：

Based on the absorption intensity of specific wavelengths of light by substances in water, this method measures substance composition and concentration. According to Lambert-Beer Law, when parallel monochromatic light passes through a uniform, non-scattering absorbing substance, the absorbance is proportional to the concentration of the absorbing substance, enabling precise measurement of the target substance concentration.

Application：

• Oil & Petrochemical: Extraction, refining, production, storage, transport, pipelines.

• Offshore: Platforms, rigs, ship docks, loading, transfer buoys.

• Water Quality: Drinking water treatment, wastewater treatment, water protection.

• Transport: Ports, docks, shipyards.

• Environmental Monitoring: Stormwater management, public beaches.

• Agriculture: Farm equipment, fuel storage, aquaculture.

• Manufacturing: Steel and aluminum, pulp and paper, cooking oil.

• Power Generation & Distribution: Carbon-based, renewable energy—hydropower