|Infrared Scattering Principle
|Better Than 5% Of Measured Value Or 0.3NTU, Take The Larger One
|Offset; Factor Offset
|0~50℃ (does Not Freeze)
|PPS, Ti, Glass
|Standard 5 Meters
1000 NTU Turbidity Analyzer,
Infrared Digital Turbidity Sensor,
Sea Water Digital Turbidity Sensor
Infrared Digital Turbidity Sensor 1000 NTU For Sea Water
Digital infrared turbidity sensor OPTU790 is a digital infrared turbidity measurement equipment. The digital infrared turbidity sensor adopts digital signal processing technology to achieve higher measurement accuracy and accuracy.
The digital sensor can output measurement data in real time, and transmit the turbidity value to the data acquisition system or controller in digital form, which is convenient for data recording, monitoring and remote control. It has high anti-interference performance, can work stably in a complex environment, and reduces the influence of external interference on the measurement results.
|Electrical isolated communication and power interfaces
|Infrared scattering principle
|Better than 5% of measured value or 0.3NTU, take the larger one
|Offset; Factor offset
|Sample Flow Rate
|0~50℃ (does not freeze)
|-10~60℃ (does not freeze)
|PPS, Ti, glass
|Diameter: 35mm Length: 215 mm
|1 inch NPT at both ends; Immersed or piped installation
|Split M16 connector
|Standard 5 meters (other length can be customized)
User manual of turbidity sensor OPTU790:
OPTU790-Turbidity user manual.pdf
Applications Of the Turbidity Analyzer:
Water quality monitoring: Turbidity is one of the important indicators for evaluating water quality. The 1000NTU turbidity sensor can be used to monitor the turbidity changes of water bodies such as tap water, surface water, rivers, lakes and reservoirs to evaluate the transparency and pollution degree of water bodies.
Sewage treatment: In the process of sewage treatment, turbidity sensors can be used to monitor the turbidity of sewage before and after treatment, helping to evaluate the treatment effect and determine whether further treatment is required.
Drinking water production: The safety and quality of drinking water is critical to public health. The 1000NTU turbidity sensor can be used to monitor the turbidity in drinking water to ensure compliance with hygienic standards.
Hydroponics and Aquaculture: In hydroponics and aquaculture, the turbidity of the water body is closely related to the growth and health of plants and animals. Turbidity sensors can help monitor and maintain proper water quality conditions.
Environmental monitoring: 1000NTU turbidity sensor can be used in environmental monitoring projects, such as measuring the water quality in rivers, lakes and oceans to monitor environmental changes and pollution conditions.
Industrial Applications: In certain industrial processes, especially those involving water treatment and suspended matter, turbidity sensors help monitor and control the water quality in the production process.
Seawater Monitoring: Provides critical information on seawater quality, ecosystem health, and environmental conditions. This helps to protect the marine ecosystem, maintain the sustainable use of marine resources, and provide data support for related research and marine engineering
Contact Person: Yuki Fu