Table of Contents
Benefits of Using Electronic pH Sensors in Water Quality Monitoring
Electronic pH sensors are becoming increasingly popular in water quality monitoring due to their accuracy, reliability, and ease of use. These sensors are designed to measure the acidity or alkalinity of a solution, providing valuable information about the quality of water in various applications such as Drinking Water treatment, wastewater treatment, and environmental monitoring.
One of the key benefits of using electronic pH sensors is their high level of accuracy. Traditional pH testing methods, such as using litmus paper or chemical Indicators, can be subjective and prone to human error. Electronic pH sensors, on the other hand, provide precise and consistent measurements, ensuring that water quality data is reliable and trustworthy.
In addition to accuracy, electronic pH sensors offer real-time monitoring capabilities, allowing for continuous measurement of pH Levels in water. This real-time data can be used to quickly identify changes in water quality, enabling prompt corrective action to be taken if necessary. By monitoring pH levels in real-time, water treatment facilities can optimize their processes and ensure that water quality standards are met at all times.
Furthermore, electronic pH sensors are easy to use and require minimal maintenance. Once installed, these sensors can operate autonomously, providing continuous monitoring without the need for manual intervention. This not only saves time and labor costs but also reduces the risk of human error in data collection.
Another advantage of electronic pH sensors is their versatility. These sensors can be used in a wide range of water quality monitoring applications, from industrial processes to environmental monitoring. Whether measuring the pH of drinking water, wastewater, or surface water, electronic pH sensors can provide valuable insights into water quality and help ensure compliance with regulatory standards.
Moreover, electronic pH sensors are often equipped with advanced features such as temperature compensation and automatic calibration, further enhancing their accuracy and reliability. Temperature compensation ensures that pH measurements are corrected for variations in temperature, while automatic calibration eliminates the need for manual calibration, saving time and ensuring consistent performance.
In conclusion, electronic pH sensors play a crucial role in water quality monitoring by providing accurate, reliable, and real-time measurements of pH levels in water. With their ease of use, versatility, and advanced features, electronic pH sensors are an invaluable tool for ensuring water quality in a wide range of applications. By incorporating electronic pH sensors into their Monitoring Systems, water treatment facilities can enhance their operational efficiency, meet regulatory requirements, and safeguard the health and well-being of communities and ecosystems.
| Measuring Method | N,N-Diethyl-1,4-phenylenediamine (DPD) spectrophotometry | |||
| Model | CLA-7122 | CLA-7222 | CLA-7123 | CLA-7223 |
| Inlet water channel | Single channel | Dual channel | Single channel | Dual channel\\u00a0 |
| Measurement range | Total Chlorine : (0.0 \\uff5e 2.0)mg/L ,calculated as Cl2 ; | Total Chlorine : (0.5 \\uff5e10.0)mg/L ,calculated as Cl2 ; | ||
| pH\\uff1a\\uff080-14\\uff09\\uff1btemperature\\uff1a\\uff080-100\\uff09\\u2103 | ||||
| Accuracy | Free chlorine: \\u00b110% or 0.05mg/L (whichever is greater), calculated as Cl2; Total chlorine: \\u00b110% or 0.05mg/L (whichever is greater), calculated as Cl2 | Free chlorine: \\u00b110% or 0.25mg/L (whichever is greater), calculated as Cl2; Total chlorine: \\u00b110% or 0.25mg/L (whichever is greater), calculated as Cl2 | ||
| pH:\\u00b10.1pH\\uff1bTemp.:\\u00b10.5\\u2103 | ||||
| Measurement cycle | Free Chlorine\\u22642.5min | |||
| Sampling interval | The interval (1\\uff5e999) min can be set to any value | |||
| Maintenance cycle | Recommended once a month (see maintenance chapter) | |||
| Environmental | Ventilated and dry room without strong vibration; Suggested room temperature: (15 \\uff5e 28)\\u2103; relative humidity: \\u226485% (no condensation). | |||
| requirements | ||||
| Sample water flow | \\uff08200-400\\uff09 mL/min | |||
| inlet water pressure | \\uff080.1-0.3\\uff09 bar | |||
| Inlet water temperature range | \\uff080-40\\uff09\\u2103 | |||
| Power supply | AC (100-240)V\\uff1b 50/60Hz | |||
| Consumption | 120W | |||
| Power connection | 3-core power cord with plug is connected to the mains Socket with ground wire | |||
| Data output | RS232/RS485/\\uff084\\uff5e20\\uff09mA | |||
| Dimension size | H*W*D:\\uff08800*400*200\\uff09mm | |||