Filtering Provide Suitable Protection Against Dangerous Levels
There is mounting evidence that current public treatment methods are not adequately filtering chlorine and other chemical contaminants in the water supply. Chlorination is the method used to kill bacteria, and while it has decreased significantly since its inception, it still causes significant health problems today. Exposure to chlorination through drinking water results in a variety of health problems, from asthma to cancer. To understand why adequate filtration will not provide suitable protection against CO VID-19, you must first understand how it works.
When a person drinks or showers in chlorinated water, they are actually being exposed to the same chemical compound that is made by the chlorine plants when they add the compound to the water. The compound reacts with natural biological matter present in the water, causing a variety of different results. Some of these results are beneficial, and can even help improve a person’s health. However, the majority of the results are harmful, and can cause short-term and long-term health problems.
When the water exits the shower head, it picks up the scent of the cleaner as well as any microbes that may be present. This goes on to the next stop in the distribution system. It moves on to the pipes, where it attacks bacteria that are already in the pipes. Once the bacteria are killed, it passes on to the drainage system, and so on. All of this exposes people to the harmful effects of the chemical compound, without them even realizing it.
Will Adequate Filtering Provide Suitable Protection Against Dangerous Levels of Chlorine in Drinking Water?
To protect against CO VID-19, you need a good quality filtration system. A complete system will remove all of the chemical contaminants from the water, along with any organic material that may have passed through the filter. There is currently no recommended maximum contaminant level for tap water filtration systems, although studies have shown that the amount of contamination in treated waters is much higher than the minimum required by law. A complete filtration system will therefore remove all bacteria, viruses, parasites, cysts and chemicals from the water. A good quality system will include an ion exchange section, which balances the mineral content.
The use of reverse osmosis does not remove all organic material, and leaves behind certain beneficial organisms such as bacteria. When adequate filtration removes the harmful bacteria, the presence of the beneficial organisms in the water is not destroyed. This means that these bacteria can build a resistance to the drugs, and may prove to be more harmful than beneficial in the long run. If the filtration removes all bacteria, including the helpful type, what remains is an organism with no useful function.
If the water entering your home already has an adequate filtration system in place, it may be worthwhile replacing the filtration unit with one capable of better performance. In order to ensure that this is the case, a professional should visit your home and carry out a full water analysis. A well-trained consultant will be able to identify the best possible water filtration system for your needs, and can recommend what steps are needed to ensure that the water you use is of adequate quality for drinking, cooking and bathing.