High Accuracy 0-100NTU Water Lower Tubidity Sensor For Pure Water

High Accuracy 0-100NTU Water Lower Tubidity Sensor For Pure Water

Flow cell type Lower Tubidity Sensor OLTU60 is a high-precision low turbidity laser sensor with RS485 interface. It is a sensor with strong communication capabilities. It can communicate and control data with other devices through the RS485 interface. This sensor usually has the following characteristics:

RS485 interface: Lower Tubidity Sensor has a long transmission distance and high anti-interference ability, and can support stable and reliable data transmission with the main control system or other devices.

High Accuracy: The OLTU60 Lower Tubidity Sensor has high-precision measurement capabilities and can accurately measure the turbidity of water samples in the range of 0 to 100 NTU and transmit the measurement data through the RS485 interface.

Low turbidity range: Designed for measuring low turbidity water samples, OLTU60 is suitable for applications requiring high accuracy, such as laboratory research, drinking water treatment, electronic manufacturing, etc.

Data communication: Through the RS485 interface, the OLTU60 Lower Tubidity Sensor can transmit measurement data to a monitoring system, data logger or other device for real-time monitoring of water quality conditions and corresponding control and adjustment.

Programmability: The OLTU60 Lower Tubidity Sensor may also have a certain degree of programmability, allowing users to set parameters and send control commands as needed to meet specific application needs.

OLTU60 Lower Tubidity Sensor is very practical in situations where remote monitoring and data collection are required, and it can realize remote monitoring and management of water quality parameters.

Technical Parameters

User manual of OLTU60:

OLTU600 Low turbidity sensor user manual.pdf

Features

• The flow turbidity sensor shoots the 660nm laser vertically downwards into the water. The light is scattered by suspended particles in the water sample, and the scattered light at 90°with the incident angle is received by the silicon photocell receiver immersed in the water sample, and 90° is calculated.

• Compact miniaturized design, small installation space
• 660nm laser light source with high resolution and fast response
• Optional viewing window and automatic emptying system reduce maintenance effort
• Low injection flow requirements, reducing the amount of waste generated in the measurement
• Internal storage of calibration data, support offline calibration, on-site plug and play
• Flow cell type turbidity probe
• Sensor display has three buttons for quick calibration

The drain outlet at the bottom of the flow-through low turbidity sensor is mainly used to ensure the accuracy and stability of the sensor, as well as to facilitate maintenance and cleaning. Specific functions include:

• Prevent Accumulation: The bottom drain design prevents the accumulation of impurities, air bubbles or sediment at the bottom of the sensor, which may affect the sensor's measurement accuracy. By regularly cleaning the drain outlet, the performance of the sensor can be kept stable.
• Flushing and Cleaning: The drain port can be used to flush and clean the bottom of the sensor regularly. This helps remove dirt, sediment or other impurities that may be attached to the bottom of the sensor, ensuring the accuracy and reliability of sensor measurements.
• Maintenance and maintenance: The drain outlet at the bottom provides convenient access, allowing maintenance personnel to easily enter the bottom of the sensor to inspect, maintain or replace sensor parts, thereby extending the service life of the sensor.
• Eliminate air bubbles: The drain outlet at the bottom of the sensor can also help eliminate air bubbles accumulated inside the sensor to ensure the stability and accuracy of sensor measurement.

Advantage

• High Sensitivity: The flow-through low turbidity laser sensor is capable of detecting extremely low turbidity liquids and can accurately measure even tiny particles or suspended matter.
• Real-time monitoring: This sensor provides instant measurement results, allowing operators to quickly obtain system or fluid status information.
• Strong adaptability: This sensor is suitable for various liquids, including water, solutions, suspensions, etc., and can be used in various industrial applications, such as pharmaceuticals, food processing, beverage production, etc.
• Online monitoring possible: Due to its real-time monitoring characteristics, the flow-through low turbidity laser sensor can be easily integrated into the automation system to achieve online monitoring and feedback control.
• High-precision measurement: The flow-through low-turbidity laser sensor can provide high-precision turbidity measurement and can detect tiny particles, which is very helpful for monitoring and controlling water quality.
• Automated control: Sensors can be integrated with automation systems to achieve automated control of water quality, improve monitoring and processing efficiency, and reduce labor costs.
• Easy to install and maintain: Sensors typically have simple installation and maintenance procedures, allowing them to be quickly deployed and kept in good operating order.
• In general, flow-through low turbidity laser sensors have the advantages of high precision, real-time monitoring, automated control, easy installation and maintenance, and have important application value in water quality monitoring and treatment.

Drinking water flow-through low turbidity laser sensor OLTU60 is mainly used in environments related to drinking water treatment and monitoring. It aims to monitor the turbidity level of drinking water in real time to ensure safe and qualified water quality. The following are the main application environments for this sensor:

Drinking water production line: In the drinking water production line, the sensor can be installed at key positions in the process to monitor the turbidity of water samples in real time. This helps detect anomalies in the treatment process and if treatment needs to be adjusted to keep the water quality stable.

Waterworks: Waterworks are responsible for treating and supplying tap water to urban residents. The drinking water flow-through low turbidity laser sensor can be installed at the water inlet and outlet of the water plant to continuously monitor the turbidity changes of the raw water and the treated tap water. In this way, potential water quality problems can be detected in time, and measures can be taken to ensure that the drinking water supplied meets safe standards.

Water treatment facilities: In other types of water treatment facilities, such as sewage treatment plants, industrial wastewater treatment plants, etc., the sensor can also be applied. It monitors water quality changes during treatment and helps operators adjust and optimize treatment methods to meet treatment requirements and reduce environmental impact.

Drinking water quality monitoring station: Drinking water flow-through low-turbidity laser sensors can be deployed in drinking water quality monitoring stations in cities or communities for real-time monitoring of water quality in water supply systems. Such monitoring stations can provide continuous water quality data, provide decision-making basis for local governments and relevant departments, and ensure the safety of drinking water for the public.

In general, drinking water flow-through low turbidity laser sensors are widely used in all aspects of drinking water treatment and monitoring, aiming to provide high-precision, real-time water quality monitoring data to ensure the safety and qualification of drinking water and protect public health .