Water is essential for human life, but it can also be a source of pollution. That’s why it is important to monitor the quality of water before using or selling it.
For this purpose, a Water Quality Analyzer comes in handy. These analyzers are used in several sectors. Let’s take a closer look at some of their uses and applications.
Benefits
Water quality is critical for human consumption and health, industrial use, and natural environments. It can be contaminated by chemicals, pesticides, and heavy metals that pose serious health risks and impair the quality of life.
For this reason, water is regulated by regulatory agencies and local governments around the world. Businesses that fail to adhere to these standards may face hefty fines and penalties.
A water quality analyzer can help businesses meet all these requirements by checking the water condition and advising them accordingly. The device can also be used by homeowners to check the purity of their swimming pool water.
Water is an essential component for manufacturing processes in a number of industries, such as pharmaceuticals and food production. A top-quality water quality analyzer can help these companies improve their processes, thereby increasing profitability and sustainability.
Applications
Water quality analysis is used in many industrial and petrochemical applications, providing process optimization and control. It also protects capital assets by preventing corrosion, minimizing maintenance costs and maximizing uptime.
A Water Quality Analyzer is a type of water measurement instrument that uses microfluidics and spectral analysis to measure water quality parameters such as COD, pH, conductivity, ORP, turbidity, ozone and chlorine. It can be used in water treatment plants, water distribution networks, cooling towers and boilers.
Water quality monitoring is a key component in drinking water quality management. A typical approach relies on a regular sampling program, followed by laboratory analysis. This method only captures a small snapshot over time and may not reflect variances in the actual water quality. It is also prone to feedback delay and is inefficient for responding quickly to water incidents. A more effective and efficient approach combines online UV-Vis instrumentation with advanced data analysis techniques, such as machine learning, for real-time water quality monitoring.
Cost
Water quality monitoring requires testing for a range of chemical and biological contaminants. These include turbidity, dissolved oxygen, pH, conductivity, nitrogen/phosphorus concentration, and pesticides and toxic chemicals.
However, implementing a robust monitoring program can be expensive. This is because laboratory infrastructure is often required to handle the large numbers of tests that are required.
Moreover, the cost of materials can be high for certain tests. The costs can vary widely depending on the type of laboratory and its equipment.
Regardless of the type of water supply, a water quality analyzer is important for any business that uses or supplies it. It can help to avoid fines and other legal issues that may occur if you fail to comply with statutory requirements.
Manufacturers
Water is an essential component of many industrial processes, and the quality of that water plays a key role in ensuring product safety. Analyzers help monitor the quality of that water, so that products can be produced safely and without risking contamination.
Manufacturers offer water quality sensors, including conductivity, dissolved oxygen (DO), pH, and oxidation-reduction potential (ORP) meters. Designed for use in natural waterways, seawater, groundwater, wastewater, and process control applications.
Thermo Scientific offers the DataStick online analytical measurement system, containing ten interchangeable “plug-and-play” sensor heads. Measurements can be configured, calibrated and diagnosed through a PC or PLC, reducing the cost of installation.
