Home Water Softening

Frequently Asked Questions

Water naturally has a variety of minerals such as calcium and magnesium. Whether a water supply is considered “hard” or “soft” depends on how much of these minerals are in your water. Soft water contains lower levels of calcium and/or magnesium than hard water.

There is no requirement to soften your water. The decision to soften is a personal choice that can affect your home and the environment. If your water’s hardness is greater than 7 grains per gallon or 120 mg/L, then you might need a water softener to ensure your appliances run well and to improve aesthetic considerations.

Understand the hardness of your water
To decide if you need a home water softener, learn about the hardness of your home’s water. You can measure the hardness of your water using a test kit or an independent laboratory. Search for labs at Environmental Laboratory Accreditation Program. If you get your water from a community water system, you can contact them directly for information about your water’s hardness.

Advantages of home water softening
·        Prevents build-up of minerals (scale) on the inside of pipes, fixtures, and hot water heaters.
·        Lengthens the life of some appliances.
·        Reduces or prevents mineral spots on glassware.
·        Prevents or reduces soap films and detergent curds in sinks, bathtubs, and washing machines.

Disadvantages of home water softening
·        Can corrode your pipes. The corroded metal ions from the pipes can end up in your water.
·        Potential health implications from additional sodium from water softening.
·        Regular testing of the water and maintenance of the softener is necessary to make sure the softener is working properly.
·        Negative impacts to the environment from salt use.
·        Water waste: The water used to regenerate the softener beads ends up as waste.
 
Home water softeners, also called ion exchange units, are appliances that remove calcium and magnesium in water. Resin beads inside the softener trap the calcium and magnesium and exchange them for sodium or potassium. Once the resin beads become full of calcium and magnesium, a highly-concentrated salt or potassium solution removes the calcium and magnesium from the beads. After passing through the beads, the resulting chloride solution becomes a waste stream that goes down the drain and ultimately into the environment.

Make sure you have your softener installed and maintained according to the manufacturer’s instructions. Read the manufacturer’s instructions before adding any chemicals to the unit. Maintaining your softener will keep your water quality stable. This will help prevent issues with corrosion. In addition:
·        Check to see if your water system already softens the water. Soft water provided by a utility does not need additional softening and may cause corrosion issues for your home.
·        Make sure the softener is set to the hardness of your water supply. If the hardness is set too high, the softener will cost more to operate and waste water, costing you extra money.
·        If your home has new copper plumbing, do not run the water softener for at least the first few weeks you use water at your house. This will help the plumbing form a protective mineral layer to reduce the risk of consuming excess copper. Learn more about Copper in Drinking Water.
·        Ensure that the softener is filled with sodium or potassium chloride following the manufacturer’s recommendations.
·        Soften only what you need to. People often choose to soften showers, sinks, and laundry hookups. Toilets, hose bibs, basement sinks, and other cold water taps typically do not need to be connected to a softener. In many cases, people choose to soften only the hot water.
Check your manufacturer’s instructions for dealing with these issues:
·        Clogging: If your water supply is cloudy, it may clog the resin in the softener with mud and clay. Backwashing will typically solve this problem. Adding a sediment filter before the softener could also help.
·        Iron fouling: Iron that has been exposed to air or chlorine (red iron) can clog the resin and prevent it from working. This is known as iron fouling. Sometimes it may be necessary to filter the water before it gets to your softener to prevent fouling. Commercial cleaners are available if the resin becomes fouled. Cleaners need to be used according to manufacturer instructions to avoid contamination.
·        Bacteria and fungi: If your water supply is not disinfected prior to softening, bacteria and fungi can potentially grow on the surface. This can reduce the effectiveness of your softener.
 
A water softener that uses sodium chloride (salt) increases the amount of sodium in the water you drink at home. Consider the following if you have a home softener:
·        If you or someone in your home has a history of high blood pressure, consult a doctor about drinking softened water.
·        You can decrease the amount of sodium you drink:
o   Have an un-softened tap for cooking and drinking.
o   Regenerate your softener with potassium chloride instead of sodium chloride (salt). Potassium chloride is available at most stores that sell softener salt.
The calcium and magnesium removed by softening are not harmful and may be beneficial sources of essential elements needed by the body. Removing them from your water may mean you will have to get more of them from your diet.

Minnesota has a growing chloride in water problem that threatens our fresh-water fish and other aquatic life. The chloride used in home water softeners can also impact the water used for drinking. It takes only one teaspoon of sodium chloride salt to permanently pollute five gallons of water. Once salt is in water, there is no easy way to remove it.
In some communities, home water softeners drain to municipal wastewater treatment plants, which are not designed to remove chlorides. The chloride passes through the treatment plant and ends up in our lakes and streams. In homes with private wells and home softeners, chloride drains to the home’s septic system and then ends up in lakes and streams.