How Do We Know If The Water In Our Taps Is Safe To Drink?


Did you ever think you’d live in a time where the quality and safety of your tap water would be routinely monitored and tested? We used to be able to take clean water for granted, but in today’s industrialized world, we just cannot. Every substance people utilize eventually finds its way into water systems; it is a proven truth. How is it determined if harmful bacteria are in the water supply?

The question, in my opinion, is not how but what. Since October 1, 1999, all water providers have had to give their customers a full report on the contaminants found in the water supply. Tables labeled “Inorganic Contaminants,” “Radioactive Contaminants,” “Organic Contaminants,” and “Disinfectants and Disinfection By-Products” provide startling listings of contaminants found in these reports.

Copper, uranium, combined radium, alpha emitters, chromium, barium, arsenic, fluoride, nitrate, trihalomethanes, halo acetic acid, and chlorine all fall within these categories.

The report identifies the origins of the contaminants tested to shed light on the water testing process for contamination and quality. A chill runs down your spine just reading this list.

There are many potential contributors to these issues, such as “leaching from wood preservatives,” “discharge from steel and pulp mills,” “discharge from metal refineries,” “discharge from drilling wastes,” “discharge from fertilizer and aluminum factories,” “erosion of natural deposits,” “sewage,” “leaching from septic tanks,” “runoff from fertilizer use,” “by-product of drinking water chlorination,” and “additive used to control microbes.”

The report’s permitted limits of contaminants guide how water is tested for pollution. The Maximum Residual Disinfection Level, the Maximum Contaminant Level, the Maximum Residual Disinfection Goal, and the Maximum Contaminant Level Goal are all examples of standards.

Although numerical values are assigned to each class, the report provides no context for these figures. Your water is given a “Pass/Fail” mark at the end of the information. Even if your water is considered safe, the long list of potential impurities may leave you wondering if any amount is acceptable.

Now you know why it’s not enough to ask, “How is tap water tested for contamination?” when discussing the problem of water safety. The truth is that none of us can afford to gamble with our loved ones’ health. Especially considering how easily accessible, efficient domestic water treatment systems are today.

These cleaners are available in various forms, from drinking filters to whole-house systems. They’re the most cost-effective and hassle-free option for providing potable water to every home.

Determining the optimal system from the many options available can be challenging. In my opinion, the best filters are those that use multiple stages of filtration. It has been proven that this cutting-edge technology is superior to more conventional methods like distillation and reverse osmosis. Your family will be safe from chlorine (a disinfectant), lead (an inorganic pollutant), and volatile organic compounds (VOCs) thanks to this filtration process.

Water that leaves your home and reenters the city system via the sewers will be free of germs and pollutants thanks to a whole-house, multi-stage water filter system, which you may find interesting. That’s an added benefit not provided by all purification methods.

Understand me. To inquire, “How is tap water tested for contaminants?” is quite acceptable. A self-testing at-home kit is available. However, if you discover that the water from your tap is unsafe, you will still need to take action.

Instead of dealing with testing, why not just purify your water at home?

However, don’t just take my word for it. Visit my website to learn more about how to protect your family from harmful chemicals in municipal tap water with cutting-edge filtration devices.

Researcher and writer on water purification, Olivia Romero, writes, “The cleanliness of our water is one of the most essential aspects in the prevention of disease. Why take the risks when there’s such an easy way out? To discover what you can do to save your loved ones, check out

Read also: