In today's world, efficient water management and consistent process control are critical challenges within the paper and textile industry. Large volumes of water are used throughout production, dyeing, and finishing processes, where even small variations in water quality can affect product quality, operational efficiency, and environmental compliance. Our advanced IoT sensors for the paper and textile industry provide real time insights into key water quality parameters. This enables stable production processes, reduced waste, and more sustainable industrial operations.
Our IoT sensors continuously monitor essential water quality parameters across production lines, process water systems, and wastewater treatment stages.
Dissolved Oxygen
Dissolved oxygen levels are critical for biological treatment processes and wastewater management. Monitoring dissolved oxygen ensures optimal conditions for treatment efficiency and regulatory compliance.
Temperature
Water temperature directly affects chemical reactions, dye absorption, and biological activity. Accurate temperature monitoring supports consistent product quality and stable process performance.
ORP
Oxidation reduction potential provides insight into the chemical state of process and wastewater. ORP measurements help optimize chemical dosing and ensure effective treatment processes.
Turbidity
Turbidity indicates the presence of suspended solids, fibers, or contaminants. Monitoring turbidity supports quality control, filtration efficiency, and early detection of process deviations.
pH
pH levels influence chemical reactions, dye stability, and treatment efficiency. Continuous pH monitoring ensures optimal process conditions and protects downstream equipment and treatment systems.
By monitoring dissolved oxygen, temperature, ORP, turbidity, and pH, manufacturers gain full visibility into water quality throughout the production cycle. This enables proactive control, higher efficiency, and more resilient paper and textile operations.
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
Improved Process Stability
Real time monitoring ensures consistent water quality, reducing variability in production and improving final product quality.
Reduced Water and Chemical Consumption
Accurate data enables precise control of chemical dosing and water usage, minimizing waste and lowering operational costs.
Enhanced Environmental Compliance
Continuous monitoring supports compliance with environmental regulations by ensuring wastewater discharge parameters remain within permitted limits.
Lower Operational and Maintenance Costs
Early detection of abnormal conditions prevents process disruptions, equipment damage, and costly downtime.
Data Driven Optimization
Reliable sensor data supports informed decisions for process improvements, system upgrades, and long term sustainability initiatives.
Support for Sustainable Manufacturing
Efficient water management reduces environmental impact and supports corporate sustainability and ESG objectives.
Reliable water quality data is essential for efficient production and sustainable manufacturing in the paper and textile industry.
