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[China]
Trade Verify
Address: i City, No11, TangYan South road, Yanta District, Xi'an,Shaanxi,China.
Contact name:Evelyn Wang
Xi'an Kacise Optronics Co.,Ltd. |
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Verified Suppliers
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Integrated design, anti-electromagnetic interference
Built-in temperature sensor, real-time temperature compensation Support salinity and air pressure compensation
Stainless steel case, IP68 waterproof grade, suitable for various working conditions
RS485 signal output, Standard Modbus protocol, easy integration, networking
| Water Quality Sensor Model | KFDO300 |
| Water Quality Sensor Measurement parameter | Dissolved oxygen, temperature |
| Water Quality Sensor Method of measurement | Fluorescence quenching |
| Water Quality Sensor Measurement mode | Immersion measurement |
| Water Quality Sensor Measuring range | Do: (0 ~ 20) mg/L or (0 ~ 200)% Temperature: (0 ~ 60) °C |
| Water Quality Sensor Accuracy | ± 0.3 mg/L |
| Water Quality Sensor Repeatability | ± 0.3 mg/L |
| Water Quality Sensor Resolution | 0.01 mg/L |
| Water Quality Sensor Response time | ≤60s |
| Water Quality Sensor Zero Drift (24h) | ± 0.3 mg/L |
| Water Quality Sensor Range Drift (24h) | ± 0.3 mg/L |
| Water Quality Sensor Accuracy of temperature compensation | ± 0.3 mg/L |
| Water Quality Sensor Calibration period | Six months |
| Water Quality Sensor Temperature range | (0 ~ 60) °C |
| Water Quality Sensor Protection level | IP68 |
| Water Quality Sensor MTBF | ≥1440h/Time |
| Water Quality Sensor Means of communication | RS485(Modbus RTU) , maximum baud rate 115200 bps |
General Knowledge of Dissolved Oxygen
The titrimetric method for dissolved oxygen analysis is known as the Winkler method. This method was developed by L.W. Winkler, a Hungarian chemist, in 1888. Also known as the iodometric method, the Winkler method is a titrimetric procedure based on the oxidizing property of dissolved oxygen. This method has long been the standard for accuracy and precision when measuring dissolved oxygen.
Samples are collected, fixed, and titrated, either in the field or in a lab. The sample should be fixed with the reagents as soon as possible to prevent oxygen levels from shifting due to agitation or atmospheric contact. The Winkler method requires a specific bottle, known as a BOD bottle, which is designed to seal without trapping air inside. Today, the reagents required can come in pre-measured packets for greater accuracy and ease of use. When using this method, the amount of titrant needed to complete the reaction is proportional to the dissolved oxygen concentration of the sample.
While the Winkler method is still a recognized standard for analyzing dissolved oxygen, several concerns have been identified. This method is subject to human error, inaccuracies, sample contaminants and interferences. In addition, titrations can be time-consuming, and cumbersome in the field.
Now seven modified Winkler methods exist, each created to respond to a different issue (such as an interfering contaminant). The most popular of these is the Azide-Winkler method, as it addresses the issues with iodine present in the original method. However, the rest of the modified methods create a new concern – these methods require prior knowledge of the sample (such as other elements present) in order to make the appropriate choice of method.
If one has the time and the inclination, the titrimetric method for dissolved oxygen analysis can be accurate and precise. However, new technologies have created dissolved oxygen sensors that are easier and quicker to use and can be just as accurate in most applications.
Phone +86-17719566736
Email sales@kacise.com
Location Tangyan South Road, High-tech Zone, Xi'an City, Shaanxi Province, China
