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- Learn About Chlorine
Clearing the air about chlorine: Beyond the pool.
Ahh, yes. Chlorine. The official perfume of swimming pools around the world. Beyond its distinctive smell, chlorine also conjures up those warm, eye-reddening reminders from our parents that still ring in our ears from pool days past (“Close your eyes underwater!”). However, while chlorine’s most widely known use may be for disinfecting swimming pools, pool water is not the only type of water treated with chlorine. In fact, chlorine may very well be in the walls around you as you’re reading this, as it is part of nearly all tap water in the United States. According to the American Chemistry Council, approximately 98% of U.S. public water systems use a form of chlorine disinfection.
Which begs the questions: just what is chlorine, how does it affect you and your family’s health and well-being, and how much of it is in your tap water?
Let’s clear the air about chlorine, and get to boosting your water quality IQ.
First things first. What, exactly, is chlorine?
Chlorine is a chemical element that is a potent oxidizing agent. In its natural form, it is a gas, one that is highly toxic and unstable. Chlorine is also highly concentrated in our oceans, and is a vital element with many practical applications — the most common being sodium chloride, also known as table salt. If we shake things about bit more, we find chlorine is an essential part of manufacturing PVC pipes, plastics, medicines, seat cushions, and bumpers.
Why is chlorine added to drinking water?
As it relates to your drinking water, chlorine (Cl2) or hypochlorite (an ion composed of chlorine and oxygen), is added to the water at the treatment facility. Water treatment facilities pressurize the gaseous natural state of chlorine to turn it into a liquid. Chorine is added to drinking water because its chemical properties help destroy bacteria, microbes, and pathogens in a water supply. In fact, disinfecting the U.S. water supply drastically reduces the risk of diseases like salmonella, typhoid, cholera, and dysentery. So if chlorine does its job, your water could be free of microorganisms that cause diseases. That’s a big W for chlorine! However, even when chlorine is added, there could be bacteria present in your water when it reaches your home (source: Science X, Date). Common causes include the chlorine breaking down too quickly or microorganisms leaching into the water at some point during the journey from the treatment plant to your home.
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The harmful aesthetic effects of too much chlorine.
Beyond taste and odor, the volatile chemical nature of chlorine means it can react and form potentially harmful byproducts. Among the more notable, and noticeable, of them are those effects to your skin and hair:
- According to the American College of Asthma, Allergy, and Immunology (ACAAI), swimming, bathing and showering in chlorinated water can cause irritant dermatitis, resulting in itchy, red spots, drier skin, or hives.
- It’s no fun for your follicles, either, because your body naturally produces an oil called “sebum” that coats your skin and hair in a thin protective layer. Chlorinated water can remove part of this protective layer, exposing your hair to potential damage. According to health professionals from Columbia University, without natural oils, your hair can become brittle and cause its natural sheen to diminish.
How much chlorine is in my water?
Good question – and a tough one to answer – as the exact amount of chlorine that is in your water is hard to determine as it can vary from district to district. That said, there are some basic guidelines. According to the Centers for Disease Control and Prevention (CDC), the maximum chlorine concentration considered safe for human consumption is 4 milligrams per liter, or 4 parts per million (ppm). The World Health Organization (WHO) estimates that most water treated with chlorine contains the chemical at a concentration between 0.2 and 1 ppm.
How to test your water for chlorine.
If you live in a rural area with a modest population and spring water as your primary water source, your local water supply’s chlorination level may only be tested once a month, it is better to be safe than sorry — don’t assume the chlorine concentration in your water falls between these parameters. If you want to determine the level of chlorine in your water, use a water test kit or request a water quality report from your local municipality to see the chlorine concentration in your area’s drinking water.
Testing takeaway: Remember, once the water reaches your tap, there is no need for you to consume chlorine. Better still, there are several methods that will allow you to reduce overall chlorine content and bring your water to life.
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How to lower chlorine concentration.
If you have determined there is more chlorine in your water than you’d like, there are a few methods of lowering the concentration before you drink it or use it for cooking your dinner. Some smarter, more efficient, and more effective than others. Let’s start on the “no way, not for me” end of the spectrum.
Good, ol’ fashioned evaporation.
Surely this method won’t be helpful for most modern families who use water often, and for many uses, throughout a day. Nevertheless, chlorine will slowly evaporate from your tap water once it leaves your faucet, so it is an option. Did you know if you let a gallon of water stand for 24 hours, the chlorine will completely evaporate? Use that gallon as a guideline.
Boiling your water.
Boiling water will reduce the amount of chlorine in your tap water but will not remove it entirely. And boiling won’t reduce the amount of chlorine in your shower water at all. Then, there’s the time suck factor. According to the San Francisco Public Utilities Commission (SFPUC), boiling water for 20 minutes will effectively remove chloramine and ammonia from tap water. Their tests were less conclusive regarding the removal of chlorine, but 20 minutes is 20 minutes.
Enough of the impractical. Let’s talk filters.
Carbon Filters
Carbon filter technology has come a long way since the time of the ancient Egyptians, who stored water in charcoal because they discovered the water was fresher and tasted better. This filter alternative is also very common in water purification and filtration products. Makes sense. Carbon filters can reduce the chlorine content in your water and the general taste and odor associated with chlorine and disinfection by-products (DBPs).
- The most common type of carbon filter in products on the market today is an activated carbon filter. This type of filter uses granular activated carbon media to reduce many contaminants and unwanted components of your water.
- Less common is a more advanced form of carbon filtration called catalytic activated carbon filtration. Pentair Water Solutions uses these types of filters in many solutions because catalytic activated carbon has a high capacity for chlorine reduction. Catalytic activated carbon filters can reduce trihalomethanes (or THMs) and chloramines because the structure of the carbon changes through different activation and manufacturing processes.
The popular faucet-mounted filtration systems use an activated carbon filter to treat tap water. However, due to their size and the speed at which the water pours out, chlorine reduction in these models might not be as high as you would like.
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Disclaimer: The FDA has not reviewed the information on this website. Products offered for sale herein are not intended to treat, cure, or prevent any disease or health condition. No medical claims are being made or implied. Contaminants mentioned are not necessarily in your water.