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Understanding the Importance of Turbidity Measurement in Water Quality Monitoring with Campbell Scientific Turbidity Sensor
Water quality monitoring is a crucial aspect of environmental management, as it helps to ensure the safety and sustainability of our water resources. One key parameter that is often measured in water quality monitoring is turbidity. Turbidity is a measure of the cloudiness or haziness of a fluid caused by suspended particles. These particles can include sediment, algae, bacteria, and other contaminants that can affect the quality of the water.
Turbidity measurement is important because it can indicate the presence of pollutants in the water, as well as the effectiveness of treatment processes in removing these pollutants. High levels of turbidity can impact aquatic ecosystems by reducing light penetration, which can inhibit photosynthesis in aquatic plants and algae. This, in turn, can lead to a decrease in oxygen levels in the water, which can harm fish and other aquatic organisms.
| FL-9900 High Precision Type Runner Flow Controller | ||
| Measuring range | Frequency | 0\\uff5e2K Hz |
| Velocity of flow | 0.5\\uff5e5 m/s | |
| Instantaneous flow | 0\\uff5e2000 m\\u00b3/h | |
| Cumulative flow | 0\\uff5e9999 9999.999 m\\u00b3 | |
| Applicable pipe diameter range | DN15\\uff5eDN100;DN125\\uff5eDN300 | |
| Resolution | 0.01 m\\u00b3/h | |
| Refresh rate | 1s | |
| Accuracy class | Level 2.0 | |
| Repeatability | \\u00b10.5% | |
| Sensor input | Radius:0\\uff5e2K Hz | |
| Supply voltage:DC 24V(instrument internal supply) | ||
| The electronic unit automatically temperature compensates for errors | +0.5%FS; | |
| 4-20mA | Technical characteristics | Meter/transmitter dual mode (photoelectric isolation) |
| Loop resistance | 500Q(max)\\uff0cDC24V; | |
| Transmission accuracy | \\u00b10.01mA | |
| Control port | Contact mode | Passive relay control output |
| Load capacity | Load current 5A (max) | |
| Function selection | Instantaneous flow upper/lower alarm | |
| Mains supply | Working voltage: DC24V 4V Power consumption :<; 3.OW | |
| Cable length | Factory configuration: 5m, can be agreed: (1~500) m | |
| Environmental requirement | Temperature: 0~50\\u2103; Relative humidity: \\u226485%RH | |
| Storage environment | Temperature: (-20~60) \\u2103; Humidity: 85%RH | |
| Overall dimension | 96\\u00d796\\u00d772mm\\uff08height \\u00d7 width \\u00d7 depth\\uff09 | |
| Opening size | 92\\u00d792mm | |
| Installation mode | Disc mounted, fast fixed | |
| Sensor | Body material | Body: Engineering plastic PP; Bearing :Zr02 high temperature zirconia |
| Flow rate range | 0.5\\uff5e5 m/s | |
| Withstand pressure | \\u22640.6MPa | |
| Supply voltage | lDC 24V | |
| Output pulse amplitude| | Vp\\u22658V | |
| Normal pipe diameter | DN15\\uff5eDN100;DN125\\uff5eDN600 | |
| Medium characteristic | Single-phase medium\\uff080~60\\u2103\\uff09 | |
| Installation mode | Direct line insertion | |
To accurately measure turbidity, a reliable and accurate turbidity sensor is essential. Campbell Scientific is a leading provider of environmental monitoring solutions, including turbidity sensors. The Campbell Scientific turbidity sensor is designed to provide accurate and reliable measurements of turbidity in a wide range of water quality monitoring applications.
One of the key features of the Campbell Scientific turbidity sensor is its high sensitivity and accuracy. The sensor uses a light source and a detector to measure the amount of light scattered by particles in the water. This scattered light is then converted into a turbidity measurement, which is displayed in nephelometric turbidity units (NTU). The sensor is capable of measuring turbidity levels ranging from 0 to 1000 NTU, making it suitable for a variety of monitoring applications.
In addition to its accuracy, the Campbell Scientific turbidity sensor is also designed for durability and reliability. The sensor is constructed from high-quality materials that are resistant to corrosion and fouling, ensuring long-term performance in harsh environmental conditions. The sensor is also easy to install and maintain, with a simple calibration process that can be performed in the field.
Another important feature of the Campbell Scientific turbidity sensor is its compatibility with data logging systems. The sensor can be easily integrated into Campbell Scientific data loggers, allowing for real-time monitoring and data collection. This data can then be used to analyze trends in turbidity levels over time, identify sources of pollution, and assess the effectiveness of water treatment processes.
Overall, the Campbell Scientific turbidity sensor is an essential tool for water quality monitoring. Its high sensitivity, accuracy, durability, and compatibility with data logging systems make it ideal for a wide range of monitoring applications. By measuring turbidity accurately and reliably, the sensor helps to ensure the safety and sustainability of our water resources. Whether monitoring drinking water sources, wastewater treatment plants, or natural water bodies, the Campbell Scientific turbidity sensor is a valuable tool for environmental managers and researchers alike.
