Table of Contents
Benefits of Using EMZ turbidity sensor in Water Quality Monitoring
Water quality monitoring is essential for ensuring the safety and health of our water sources. One key parameter that is often measured in water quality monitoring is turbidity, which is a measure of the cloudiness or haziness of a fluid caused by suspended particles. Turbidity can be an indicator of water quality, as high levels of turbidity can indicate the presence of pollutants or contaminants in the water.
One tool that is commonly used to measure turbidity is the EMZ turbidity sensor. This sensor is designed to accurately and reliably measure turbidity in water, making it an invaluable tool for water quality monitoring applications. The EMZ turbidity sensor uses a light source and a detector to measure the amount of light that is scattered or absorbed by particles in the water. This information is then used to calculate the turbidity of the water.
| Controller type | ROC-7000 Single-stage/Double-stage Reverse osmosis control integrated system | |||||
| Cell constant | 0.1cm-1 | 1.0 cm-1 | 10.0cm-1 | |||
| Conductivity measurement parameters | Raw water conductivity | (0~2000) | (0~20000) | |||
| Primary conductivity | (0~200) | (0~2000) | ||||
| Secondary conductivity | (0~200) | (0~2000) | ||||
| Temperature compensation | Automatic compensation on the basis of 25 ℃ ,compensation range(0~50)℃ | |||||
| Accuracy | Matched precision:1.5 level | |||||
| Flow measurement range | Instantaneous flow | (0~999)m3/h | ||||
| Accumulative flow | (0~9999999)m3 | |||||
| pH | Measurement range | 2-12 | ||||
| measurement parameters | Accuracy | ±0.1pH | ||||
| Temperature compensation | Automatic compensation on the basis of 25 ℃ ,compensation range(0~50)℃ | |||||
| DI acquisition | Input signal | Low pressure switch of Tap water,high level of pure water tank, low level of pure water tank, low pressure switch before the pump, high pressure switch after the primary booster pump,high level of secondary pure water tank, low level of secondary pure water tank,high pressure switch after the secondary booster pump | ||||
| Signal Type | Passive switch contact | |||||
| DO Control | Control output | Inlet valve, primary flush valve, primary drain valve, antiscalant pump, raw water pump, primary booster pump, secondary booster pump, secondary flush valve, secondary drain valve, pH adjustment metering pump. | ||||
| Electrical contact | Relay(ON/OFF) | |||||
| Load capacity | 3A(AC 250V)~ 3A(DC 30V) | |||||
| Display screen | Screen color:TFT;resolution:800×480 | |||||
| Working power | Working power | DC 24V±4V | ||||
| Power consumption | ≤6.0W | |||||
| Working environment | Temperature:(0~50)℃;Relative humidity:≤85%RH(non condensation) | |||||
| Storage environment | Temperature:(-20~60)℃;Relative humidity:≤85%RH(non condensation) | |||||
| Installation | Panel mounted | Hole(Length×Width,192mm×137mm) | ||||
One of the key benefits of using the EMZ turbidity sensor is its accuracy. The sensor is designed to provide precise and reliable measurements of turbidity, ensuring that water quality monitoring data is accurate and trustworthy. This accuracy is essential for making informed decisions about water quality and ensuring the safety of our water sources.
In addition to its accuracy, the EMZ turbidity sensor is also easy to use. The sensor is designed to be user-friendly, with a simple interface that allows for easy operation and data collection. This ease of use makes the sensor ideal for a wide range of water quality monitoring applications, from small-scale monitoring projects to large-scale water treatment facilities.
Another benefit of the EMZ turbidity sensor is its durability. The sensor is built to withstand harsh environmental conditions, making it suitable for use in a variety of settings. Whether it is being used in a remote field location or a busy water treatment plant, the EMZ turbidity sensor can withstand the rigors of daily use and provide reliable measurements of turbidity.
The EMZ turbidity sensor is also highly versatile, with the ability to measure turbidity over a wide range of concentrations. This versatility makes the sensor suitable for a variety of water quality monitoring applications, from monitoring drinking water quality to assessing the impact of industrial activities on water sources.
Overall, the EMZ turbidity sensor is a valuable tool for water quality monitoring. Its accuracy, ease of use, durability, and versatility make it an ideal choice for a wide range of applications. By using the EMZ turbidity sensor, water quality monitoring professionals can ensure that our water sources are safe and healthy for both humans and the environment.
In conclusion, the EMZ turbidity sensor is a valuable tool for water quality monitoring. Its accuracy, ease of use, durability, and versatility make it an ideal choice for a wide range of applications. By using the EMZ turbidity sensor, water quality monitoring professionals can ensure that our water sources are safe and healthy for both humans and the environment.
How to Properly Calibrate and Maintain EMZ turbidity sensor for Accurate Readings
Turbidity sensors are essential tools in various industries, including water treatment plants, breweries, and pharmaceutical manufacturing facilities. These sensors measure the cloudiness or haziness of a liquid caused by suspended particles. One popular turbidity sensor on the market is the EMZ turbidity sensor, known for its accuracy and reliability in providing precise readings.
To ensure that your EMZ turbidity sensor is functioning correctly and providing accurate readings, it is crucial to calibrate and maintain it regularly. Proper calibration of the sensor involves adjusting its settings to match the turbidity levels of the liquid being measured. This process ensures that the sensor is accurately detecting and quantifying the suspended particles in the liquid.
Before calibrating the EMZ turbidity sensor, it is essential to clean the sensor thoroughly. Any buildup of dirt, debris, or residue on the sensor can affect its performance and accuracy. Use a soft cloth or brush to gently clean the sensor, being careful not to damage any sensitive components. Once the sensor is clean, you can proceed with the calibration process.
To calibrate the EMZ turbidity sensor, you will need a calibration standard solution with a known turbidity level. This solution should be similar to the liquid that the sensor will be measuring. Follow the manufacturer’s instructions for calibrating the sensor, which typically involves immersing the sensor in the calibration solution and adjusting the sensor’s settings until it matches the known turbidity level of the solution.
| ROS-8600 RO Program Control HMI Platform | ||
| Model | ROS-8600 Single Stage | ROS-8600 Double Stage |
| Measuring range | Source water0~2000uS/cm | Source water0~2000uS/cm |
| First level effluent 0~200uS/cm | First level effluent 0~200uS/cm | |
| secondary effluent 0~20uS/cm | secondary effluent 0~20uS/cm | |
| Pressure sensor(optional) | Membrane pre/post pressure | Primary/ secondary membrane front/rear pressure |
| ph sensor(optional) | —- | 0~14.00pH |
| Signal collection | 1.Raw water low pressure | 1.Raw water low pressure |
| 2.Primary booster pump inlet low pressure | 2.Primary booster pump inlet low pressure | |
| 3.Primary booster pump outlet high pressure | 3.Primary booster pump outlet high pressure | |
| 4.High liquid level of Level 1 tank | 4.High liquid level of Level 1 tank | |
| 5.Low liquid level of Level 1 tank | 5.Low liquid level of Level 1 tank | |
| 6.Preprocessing signal | 6.2nd booster pump outlet high pressure | |
| 7.Input standby ports x2 | 7.High liquid level of Level 2 tank | |
| 8.Low liquid level of Level 2 tank | ||
| 9.Preprocessing signal | ||
| 10.Input standby ports x2 | ||
| Output control | 1.Water inlet valve | 1.Water inlet valve |
| 2.Source water pump | 2.Source water pump | |
| 3.Primary booster pump | 3.Primary booster pump | |
| 4.Primary flush valve | 4.Primary flush valve | |
| 5.Primary dosing pump | 5.Primary dosing pump | |
| 6.Primary water over standard discharge valve | 6.Primary water over standard discharge valve | |
| 7.Alarm output node | 7.Secondary booster pump | |
| 8.Manual standby pump | 8.Secondary flush valve | |
| 9.Secondary dosing pump | 9.Secondary dosing pump | |
| Output standby port x2 | 10.Secondary water over standard discharge valve | |
| 11.Alarm output node | ||
| 12.Manual standby pump | ||
| Output standby port x2 | ||
| The main function | 1.Correction of electrode constant | 1.Correction of electrode constant |
| 2.Overrun alarm setting | 2.Overrun alarm setting | |
| 3.All working mode time can be set | 3.All working mode time can be set | |
| 4.High and low pressure flushing mode setting | 4.High and low pressure flushing mode setting | |
| 5.The low pressure pump is opened when preprocessing | 5.The low pressure pump is opened when preprocessing | |
| 6.Manual/automatic can be chosen when boot up | 6.Manual/automatic can be chosen when boot up | |
| 7.Manual debugging mode | 7.Manual debugging mode | |
| 8.Alarm if communication interruption | 8.Alarm if communication interruption | |
| 9. Urging payment settings | 9. Urging payment settings | |
| 10. Company name,website can be customized | 10. Company name,website can be customized | |
| Power supply | DC24V±10% | DC24V±10% |
| Expansion interface | 1.Reserved relay output | 1.Reserved relay output |
| 2.RS485 communication | 2.RS485 communication | |
| 3.Reserved IO port, analog module | 3.Reserved IO port, analog module | |
| 4.Mobile/computer/touch screen synchronous display | 4.Mobile/computer/touch screen synchronous display | |
| Relative humidity | ≦85% | ≤85% |
| Environment temperature | 0~50℃ | 0~50℃ |
| Touch screen size | 163x226x80mm (H x W x D) | 163x226x80mm (H x W x D) |
| Hole Size | 7 inch:215*152mm(wide*high) | 215*152mm(wide*high) |
| Controller size | 180*99(long*wide) | 180*99(long*wide) |
| Transmitter size | 92*125(long*wide) | 92*125(long*wide) |
| Installation method | Touch screen:panel embedded; Controller: plane fixed | Touch screen:panel embedded; Controller: plane fixed |
After calibrating the sensor, it is essential to perform regular maintenance to ensure its continued accuracy and reliability. This includes checking the sensor for any signs of damage or wear, such as cracks or corrosion. If any damage is found, the sensor should be repaired or replaced immediately to prevent inaccurate readings.
In addition to visual inspections, it is also recommended to perform routine performance checks on the sensor. This can involve comparing the sensor’s readings to a secondary turbidity sensor or conducting periodic calibration checks to verify the sensor’s accuracy.
Proper maintenance of the EMZ turbidity sensor also includes keeping it clean and free of any obstructions that could affect its performance. Regularly inspect the sensor for any buildup of dirt, debris, or residue, and clean it as needed. Avoid using harsh chemicals or abrasive materials that could damage the sensor.
In conclusion, calibrating and maintaining your EMZ turbidity sensor is essential for ensuring accurate and reliable readings. By following the manufacturer’s instructions for calibration and performing regular maintenance checks, you can trust that your sensor is providing precise measurements of turbidity levels in liquids. Remember to clean the sensor regularly, use calibration standard solutions, and conduct performance checks to keep your sensor in optimal working condition. With proper care and maintenance, your EMZ turbidity sensor will continue to provide accurate readings for years to come.
