Water quality monitoring is important in a variety of residential, industrial, and agricultural settings. Well water test kits can help to determine whether water that has not been treated is safe for drinking. Water testing kits can also be used to check water quality even where the water has been treated at a municipal facility, but may contain elements like iron and magnesium which make it hard and give it a reddish color. Water quality monitoring also has numerous applications in industrial, commercial, medical, and lab settings.
Why is water quality analysis needed?
Water quality matters in a number of residential, industrial and even agricultural settings. Many people who live in rural or seaside areas are not connected to water pipelines maintained by the local municipal authority. They rely on well water for their supply of water for all domestic uses. While well water can taste delicious and pure, it must be tested to make sure that there are no organic or chemical contaminants that might make it unsafe to drink.
Even in residential areas that have treated water from municipal pipelines, water testing kits may be needed to monitor water quality. The water treatment process can vary and it may be necessary to check water quality indicators to make sure it is safe for residential use. Water quality is also important in a number of industrial and agricultural settings. Fresh water testing can be use to monitor quality in water supplies obtained from purification systems like reverse osmosis and deionization; in cooling towers and boiler desalination systems; in commercial and industrial processes and in waste water before releasing it into the environment.
What are some water quality analysis methods?
There are several methods of testing water quality but one of the most widely used is conductivity. Water conductivity is used to accurately correlate the concentration of a particular chemical in the sample. Water conductivity, which refers to the ability of an electrical current to pass through the sample, is affected by the presence of chemicals and temperature.
The conductivity of water rises with temperature, so the standard temperature for testing water for chemical impurities is 25 degrees Celsius.
Water resistivity is the opposite of conductivity and is used for testing high purity water. Pure water is not a good conductor.
Some applications of water testing kits
Water testing kits can be used to test the quality of drinking water in public spaces such as schools, restaurants, parks etc. At the other end of the processes of water usage, water quality can be tested at the point of discharge. Residential, industrial, and agricultural use all add organic and inorganic pollutants to water, which must be removed before the treated waste water is discharged into streams, lakes, and rivers.
Testing waste water quality is a necessary step because 2 million tons of sewage and waste water are discharged into water bodies worldwide every single day. Water testing kits can thus help local government agencies to determine the efficacy of their waste water treatment processes.
Water testing kits have a wide range of applications for residential, industrial, and agricultural use. They can help to ensure that water used for residential and industrial purposes is of a sufficient level of purity. They can also be used to test waste water to monitor the level of water pollution being discharged into water bodies.