In today's world, effective industrial effluent treatment is essential to protect the environment and ensure regulatory compliance. Variations in wastewater quality can disrupt treatment processes and lead to environmental or operational risks if not detected in time. Our IoT sensors for industrial effluent treatment provide real time insight into water quality, enabling stable treatment performance and controlled discharge.
Our IoT sensors continuously monitor the most important parameters within industrial effluent treatment processes.
Dissolved Oxygen
Dissolved oxygen levels are critical for biological treatment efficiency. Monitoring dissolved oxygen ensures optimal conditions for microbial activity and effective pollutant removal.
Temperature
Temperature directly affects chemical reactions and biological processes within treatment systems. Continuous temperature monitoring supports stable process control and treatment efficiency.
ORP
Oxidation reduction potential provides insight into the chemical state of the effluent. ORP measurements help optimize chemical dosing and ensure effective oxidation or reduction processes.
Turbidity
Turbidity indicates the presence of suspended solids and process disturbances. Monitoring turbidity supports filtration control and early detection of treatment inefficiencies.
pH
pH levels influence chemical reactions, biological activity, and discharge compliance. Accurate pH monitoring ensures stable treatment conditions and protects downstream systems.
By monitoring dissolved oxygen, temperature, ORP, turbidity, and pH, industrial operators gain full visibility into effluent treatment performance. This enables safer operation, higher efficiency, and responsible wastewater management.
Effective effluent treatment starts with accurate measurement. Monitor water quality in real time and ensure safe, compliant discharge.
Dissolved Oxygen Range: From 0 to 200 %, 0 ... 20 mg/L, 0 ... 20 ppm Resolution: 0.01 %, 0.01 mg/L, 0.01 ppm Accuracy: ±1 %, ±0.1 mg/L, ±0.1 ppm Temperature Range: From 0 to 50 °C Resolution: 0.01 °C Accuracy: 0.5 °C Length cable: 7m LoRaWAN® class A 2 C alkaline batteries
PH Range: From 0 to 14 units ORP Range: From -1000 to +1000 mV Temperature Range: From -10 to +50 °C Langth cable: 7m LoRaWAN® class A 2 C alkaline batteries *Handset not included. Optional on request
Turbidity sensor Range: From 0 to 4000 NTU From 0 to 4500 mg/L Resolution: 0.1 NTU, 0.1 mg/L Accuracy: < 5 % of reading Temperature Range: From 0 to 50 °C Resolution: 0.01 °C Accuracy: 0.5 °C Length cable: 7m LoRaWAN® class A 2 C alkaline batteries
Turbidity sensor Range: From 0 to 50 g/L Resolution: 0.01 @ 1 FAU Accuracy: +/- 5% (range 200-4000 FAU) Temperature Range: From 0 to 50 °C Resolution : 0.01 °C Accuracy: +/- 0.5 °C Length cable: 7m LoRaWAN® class A 2 C alkaline batteries
Stable Treatment Performance
Real time monitoring helps maintain consistent treatment conditions and prevents process upsets.
Regulatory Compliance
Continuous data supports compliance with discharge limits and simplifies environmental reporting and audits.
Reduced Operational Risk
Early detection of abnormal conditions minimizes the risk of system failure, fines, and environmental incidents.
Optimized Chemical and Energy Use
Accurate sensor data enables precise control of dosing and aeration, reducing chemical consumption and energy costs.
Lower Maintenance Costs
Proactive monitoring reduces equipment stress and unplanned downtime.
Data Driven Process Optimization
Reliable insights support continuous improvement of treatment efficiency and system design.
