Table of Contents
Water Purity
Conductivity meters are valuable tools used to measure the ability of a solution to conduct an electric current. This measurement is particularly useful in determining the purity of water. Water purity is a critical factor in many industries, including pharmaceuticals, Food And Beverage production, and environmental monitoring. Conductivity meters can provide valuable insights into the quality of water by measuring the concentration of dissolved ions in the solution.
One of the primary uses of conductivity meters in assessing water purity is in monitoring the Levels of dissolved solids in the water. Dissolved solids can include a wide range of substances, such as salts, Minerals, and organic compounds. High levels of dissolved solids can indicate contamination or poor water quality, which can have negative impacts on human health and the Environment. Conductivity meters can quickly and accurately measure the conductivity of water, providing a reliable indicator of the presence of dissolved solids.
In addition to measuring dissolved solids, conductivity meters can also be used to assess the overall quality of water by measuring its conductivity at different temperatures. The conductivity of water is affected by temperature, with higher temperatures generally leading to higher conductivity levels. By measuring the conductivity of water at different temperatures, it is possible to determine the temperature coefficient of the water, which can provide valuable information about its purity and composition.
Conductivity meters can also be used to detect the presence of contaminants in water, such as heavy metals, Pesticides, and other harmful substances. These contaminants can have serious health and environmental consequences, so it is essential to monitor water quality regularly to ensure that it meets Safety standards. Conductivity meters can quickly identify changes in conductivity that may indicate the presence of contaminants, allowing for prompt action to be taken to address the issue.
Another important application of conductivity meters in assessing water purity is in monitoring the effectiveness of water treatment processes. Water treatment plants use a variety of methods to remove contaminants and impurities from water, such as filtration, chlorination, and reverse osmosis. Conductivity meters can be used to measure the conductivity of water before and after treatment, providing valuable data on the efficiency of the treatment process. By comparing the conductivity levels of untreated and treated water, it is possible to assess the effectiveness of the treatment methods and make any necessary adjustments to improve water quality.
| Model No. | CIT-8800 Inductive Conductivity / Concentration Online Controller | |
| Measurement range | Conductivity | 0.00\\u03bcS/cm ~ 2000mS/cm |
| Concentration | 1.NaOH\\uff0c\\uff080-15\\uff09% or\\uff0825-50\\uff09%\\uff1b | |
| 2.HNO3\\uff08note the Corrosion resistance of the sensor\\uff09\\uff080-25\\uff09% or\\uff0836-82\\uff09%\\uff1b | ||
| 3.User-defined concentration curves. | ||
| TDS | 0.00ppm~1000ppt | |
| Temp. | \\uff080.0 ~ 120.0\\uff09\\u2103 | |
| Resolution | Conductivity | 0.01\\u03bcS/cm |
| Concentration | 0.01% | |
| TDS | 0.01ppm | |
| Temp. | 0.1\\u2103 | |
| Accuracy | Conductivity | 0\\u03bcS/cm ~1000\\u03bcS/cm \\u00b110\\u03bcS/cm |
| 1 mS/cm~500 mS/cm \\u00b11.0% | ||
| 500mS/cm~2000 mS/cm \\u00b11.0% | ||
| TDS | 1.5 level | |
| Temp. | \\u00b10.5\\u2103 | |
| Temp. compensation | element | Pt1000 |
| range | \\uff080.0~120.0\\uff09\\u2103 linear compensation | |
| \\uff084~20\\uff09mA Current output | channels | Double channels |
| features | Isolated, adjustable, reversible, 4-20MA output, instruments/ transmitter mode. | |
| Loop resistance | 400\\u03a9\\uff08Max\\uff09\\uff0cDC 24V | |
| Resolution | \\u00b10.1mA | |
| Control contact | Channels | Triple channels |
| Contact | Photoelectric relay output | |
| Programmable | Programmable \\uff08 temperature \\u3001conductivity/concentration/TDS\\u3001timing\\uff09output | |
| Features | Could set temperature\\u3001conductivity/concentration/TDS\\u3001 timing NO/NC/ PID selection | |
| Resistance load | 50mA\\uff08Max\\uff09\\uff0cAC/DC 30V\\uff08Max\\uff09 | |
| Data communication | RS485,MODBUS protocol | |
| Power supply | DC 24V\\u00b14V | |
| Consumption | \\uff1c5.5W | |
| Working environment | Temperature\\uff1a\\uff080~50\\uff09\\u2103 Relative Humidity\\uff1a\\u226485%RH(non- condensing ) | |
| Storage | Temperature\\uff1a(-20~60)\\u2103 Relative Humidity\\uff1a\\u226485%RH(non- condensing) | |
| Protection level | IP65\\uff08with rear cover\\uff09 | |
| Outline dimension | 96mm\\u00d796 mm\\u00d794mm (H\\u00d7W\\u00d7D) | |
| Hole dimension | 91mm\\u00d791mm(H\\u00d7W) | |
| Installation | Panel mounted , fast installation | |
In conclusion, conductivity meters are versatile tools that can be used to assess a wide range of factors related to water purity. From measuring dissolved solids and detecting contaminants to monitoring water treatment processes, conductivity meters play a crucial role in ensuring the safety and quality of water. By providing accurate and reliable measurements, conductivity meters help to protect human health and the environment by identifying potential risks and enabling timely interventions. Conductivity meters are essential instruments for anyone involved in water quality monitoring and management, providing valuable insights into the composition and purity of water.
