Dissolved Oxygen Sensor & Controller
Smart DO monitoring systems featuring digital fluorescence and polarographic technologies for low-maintenance industrial water analysis.
Smart DO monitoring systems featuring digital fluorescence and polarographic technologies for low-maintenance industrial water analysis.
Engineered for rapid process control with a response time of less than 60 seconds (T90 < 60s), ensuring real-time accuracy in dynamic wastewater environments.
Delivers versatile measurement capabilities across a broad range from 0–20mg/L concentration and 0–200% saturation to meet diverse industrial requirements.
The advanced fluorescence technology requires no minimum flow rate, eliminating the measurement errors caused by low-velocity fluids in stagnant basins.
0.00~20.00mg/L
2-5 weeks
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pH、ORP、Cond、DO、Tur、TSS、COD、NH4-N、OIW、Cl、Disinf、Ion、Chl、BGA、NO3、CDOM、DFS、Colorim.
2-5 weeks
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pH、ORP、Cond、DO、Tur、TSS、COD、NH4-N、OIW、Cl、Disinf、Ion、Chl、BGA、NO3、CDOM、DFS、Colorim.
2-5 weeks
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pH、ORP、Cond(Salinit)、DO、Tur、OIW、Chl、BGA
2-5 weeks
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Precise Aeration Control: Optimize oxygen levels in real-time to prevent energy waste and ensure stable biological treatment. This solution reduces operational costs while maintaining strict compliance with discharge standards.
Durable Monitoring for Harsh Environments: Reliable performance in high-salinity or wastewater conditions with anti-interference sensors and intelligent compensation. Minimize maintenance downtime and extend equipment lifespan in the most demanding industrial applications.
Scalable Multi-Channel Control: Consolidate multiple DO sensors into a single controller to manage diverse monitoring points from one centralized hub. This high-density solution drastically reduces unit costs and simplifies site wiring for large-scale water treatment.
Remote Digital Management: Supports RS485 Modbus and cloud-based data access for real-time remote monitoring and automated alarm notifications. Ensure continuous operational safety and eliminate the need for 24/7 manual on-site supervision.
Oct 2025, Brazil: A large-scale municipal wastewater plant struggled with massive energy waste as fluctuating DO readings led to inefficient and continuous over-aeration.
The DUC2-DO controller paired with the OPD790 optical DO sensor, utilizing digital anti-interference and low-drift technology to eliminate signal fluctuations.
Slashed aeration energy consumption by 25% and extended sensor maintenance intervals to 6 months, significantly lowering the plant's total cost of ownership (TCO).
Aug 2025, Australia: A massive desalination facility faced constant equipment corrosion and sensor failure in high-salinity water, demanding a more durable monitoring solution.
The DUC2-DO controller paired with the OPD890 sensor in a Titanium housing, featuring an integrated cleaning nozzle interface to prevent salt crystallization and bio-fouling.
Extended sensor lifespan in harsh brine by 3x and reduced manual maintenance costs by 45%, saving massive operational expenditures.
Industrial-scale Atlantic salmon farms in Norway rely on continuous dissolved oxygen monitoring to maintain peak metabolic rates and ensure fish welfare within Recirculating Aquaculture Systems (RAS).
Delfino optical DO sensors were deployed alongside MCC500 multi-parameter controllers to provide real-time, drift-free measurements that automate oxygen injection and aeration intensity.
Precise control of dissolved oxygen saturation prevented stress-induced mortality and optimized feed conversion ratios (FCR), resulting in a 20% improvement in growth performance while ensuring full compliance with international sustainable farming and environmental safety certifications.
The fundamental principle of an optical dissolved oxygen (DO) sensor is based on the advanced oxygen quenching of luminescence, where a specialized sensing film is excited by a specific wavelength of blue light. When the sensing membrane is exposed to the water sample, oxygen molecules collide with the excited luminophore, causing a measurable decrease in the intensity and fluorescence lifetime of the emitted light. This physical interaction allows the sensor to calculate the oxygen concentration by precisely measuring the phase shift between the excitation and emission signals, providing a highly stable and drift-free digital output.
Unlike traditional electrochemical probes, this optical DO measurement technique does not consume oxygen during the sensing process, making it ideal for low-flow or stagnant water environments where accuracy is critical. The system utilizes a sophisticated red light reference signal to automatically compensate for internal optical degradation and sensor aging, ensuring long-term reliability in harsh industrial conditions. By integrating this standardized optical logic, the sensor provides real-time data for biological oxygen demand (BOD) tracking and aeration control, facilitating seamless integration into modern environmental monitoring and wastewater treatment networks. In wastewater applications, it adjusts aeration blower speeds (VFD) to maintain optimal DO levels. In aquaculture, it activates oxygenators or triggers alarms, creating an automated response system that prevents livestock loss and slashes energy waste.
Real-time dissolved oxygen (DO) optimization is a fundamental driver of climate change mitigation, ensuring the maximum efficiency of carbon sequestration by maintaining healthy phytoplankton populations in marine and freshwater carbon sinks. By deploying precision DO sensing in urban water infrastructure, municipalities can achieve significant energy decarbonization, reducing the massive electricity demand of aeration blowers while supporting the circular economy through nutrient-rich water reclamation. This data-driven approach directly enhances environmental resilience, transforming traditional water treatment into a proactive mechanism for global carbon neutrality and long-term ecological restoration.
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