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Filtering by Category: Water Quality

Visit Us at the Home Show for Free Water Testing!

Ben Scheper

We'll be at the Carroll County Home Show this weekend at the Ag Center, March 12 & 13. Bring us a sample of your tap water, and we'll test it for acid, hardness, nitrates, chlorine & iron right on the spot for you! We'll have plenty of water sample containers on hand in case you forget. Chris, our water treatment specialist, will also be on hand to answer any and all questions about water treatment systems. See you this weekend!

Homeshow

Plumbing and the Holidays

Pat Scheper

Can you believe it? The holiday season is upon us. There are holiday displays going up in stores, Christmas themed music being played by a few excited folks, and holiday gatherings are in the process of being planned. If you’re the designated person in your family to host the Thanksgiving, Christmas, Hanukkah, New Years Eve or any other holiday get-together this year, we’ve got a few reminders for you in helping you get your house holiday-ready!

With an influx of people in and out of your house, some perhaps staying for a few days, here’s some things that may prevent you from having an unexpected, holiday charge to fix something you could take care of now:

  • Drop some dye tablets into your toilets tanks (especially ones that are used led frequently) and let them sit for 2 minutes. The dyed water will color the water in the bowl if you have any leaks. Have any faucets that aren’t used regularly, like in a guest bedroom? Turn them on/off and make sure hot comes out of hot and cold out of cold to be sure those are running properly! Similarly, running water through unused drains will help you avoid a surprise leak or clog.
  • If you know that you have roots on or near your main drain line make sure to treat your drains with root killer.
  • Have a septic system? Make sure it’s not overdue to be pumped out!
  • To see if your water heater is heating correctly, turn on a faucet all the way to hot, and with a thermometer check the water temperature. Factory settings are around 120 degrees if you haven’t manually adjusted the settings.

Well, those are just a few of our tips on avoiding plumbing disasters during the holidays. And note, “plumbing disaster” could refer to anything from losing hot water to having your mother-in-law point out that her bathroom sink faucet is dripping. We’ll help you out with both of those problems and anything in between!

Water Softeners

Pat Scheper

Water-softener
Water-softener

The last two blogs have been devoted to hard water and water with high iron content. Both problems have something in common, and that is how they can be resolved. Both hardness and iron are media that need to be removed from your water, and the way that is done is via a water softener.What is a Water Softener? Basically, softeners utilize two tanks and operate using an ion exchange system. The ion replacement takes place in one tank filled with small polystyrene beads, or resin. The beads are negatively charged and are bonded to positively charged sodium ions. As the water flows past the beads, the sodium ions swap places with the calcium and magnesium ions, which carry a stronger positive charge.

In the other tank is salt. After several cycles, calcium and magnesium replace all of the sodium in the beads. When this happens the unit can no longer soften water. To solve this, the softener enters a regeneration cycle during which it soaks the beads in a mixture of water and salt (sodium chloride). The large amount of sodium in the brine causes the calcium, magnesium, and iron ions in the beads to give way and the beads are then recharged with sodium. After this regeneration, the softener flushes the remaining brine as well as the calcium and magnesium down through a drainpipe.

For those on a low sodium diet concerned with the amount of salt your water is flowing through, generally the amount of salt added to your water is very low- generally less than 12.5 milligrams per 8 oz. glass of water; much lower than the Drug and Food Administration’s standard for “very low sodium”, which is less than 35mg of sodium per serving. A “low sodium diet” according to the USDA is less than 1500mg/day, or 120 glasses of softened water! But if sodium is just a deal breaker, there is a company that makes pellets of potassium-chloride that can be used in place of salt.

Standard Water Softener vs. Iron Water Softener. Although we use the same water softening equipment to remove both hardness and iron, there is a slight difference between a system meant to remove just hardness and one meant to remove hardness and iron. An Iron Water Softener uses a smaller, finer resin bead than a standard water softener. This finer resin allows the softener to remove a higher level of iron than the standard resin. A standard softener should only remove a small level of iron whereas the finer resin can remove up to 10ppm of iron. Why not just use the finer resin in all softeners? Simply, it is more expensive, so let’s not spend our hard earned money unless it is necessary!

Advances in Technology A traditional water softener has a time clock head that determines when to rinse off the resin with the brine solution. Basically, a technician takes the level of hardness, asks the homeowner about water usage details, and then makes a calculated guess as to when the softener needs to enter rinse mode because the resin can no longer soften the water. But thanks to modern technology, we now have what we call metered heads.

New softener heads have a meter that measures how many gallons of water have been used during the current cycle. The head is digitally programmed with the hardness level of the water and actually calculates when the resin is full. Once the resin is full the system enters the rinse mode. This saves energy, salt, and water!

And that is everything you wanted (or didn’t want) to know about water softeners!

FAQ: Iron

Pat Scheper

Have questions about the iron content in your water? We've got answers! Q. What exactly is the iron in my water? A. Iron comes in two forms, ferrous and ferric. Ferrous means the iron is dissolved into the water so that the water contains iron but still appears clear. Ferric iron results when ferrous iron has been exposed to oxygen and oxidizes, which causes the iron to then separate from the water and become a suspended matter, much like sediment.

 

Q. How is it measured? A. Both ferrous and ferric iron is measured in parts per million, or PPM. The industry standard is that iron levels of over 0.2 ppm in a water system should be addressed and treated.

 

Q. How does it get into our water? A. As iron is found in deposits in the ground, water readily dissolves it as it passes through them in its underground flow into our water sources. It can also result from the corrosion of pipes and your various plumbing systems.

iron_pics

Q. What can iron do to a home and plumbing system? A. In the home, both ferrous and ferric iron show themselves by leaving hard-to-remove yellow or reddish-brown stains on fixtures, anything porcelain and cooking utensils. They can also leave similar stains on clothing in the laundry. Water high in iron also has that distinctive metallic taste to it. To your plumbing system, ferric iron acts similar to sediment/hardness and can contribute to the formation of clogs in pipes, wells and pumps among other systems.

 

Q. How are high iron levels reduced from water? A. Stay tuned to see the answer to this, and last week’s question on removing hardness from water in next week’s blog!

What Is "Hard Water"?

Pat Scheper

That’s a good question. Simply, the hardness of water refers to the level of dissolved minerals, most commonly calcium or magnesium, found in the water. These minerals are the result of your water passing through limestone deposits in the ground before the water makes its way into your water system and eventually out your faucets. The more limestone between ground level and the water supply, the higher the hardness levels will be. Though city water can be hard, hardness is especially present in well water, where water falls to the earth and filters through the surface down to aquifers or the water table from which well pumps draw water.

Water hardness is generally measured in grains per gallon (gpg). GPG refers to, just as it sounds, the number of grains of a given substance in one gallon of water. One grain is equal to 1/7000 lb. and one gallon of water equals 8.33 lbs. The guideline typically used for measuring hardness levels in residential water is as follows; 0.0-0.9 gpg=soft water, 1.0-3.9 gpg= slightly hard water, 4.0-7.0= moderately hard water, and 7.1-12.0 gpg= hard water. A level of over 12.0 gpg is considered very hard water.

One thing to keep in mind is that having hard water is NOT dangerous or detrimental in any way to your health. It can and does, however, cause problems both to your plumbing system and in your home. Hard water reacts to soaps and detergents and forms a “scum” rather than allowing the soap to lather and do its job. This presents a problem when doing laundry, cleaning the house, and yes, cleaning yourself. It can cause clothing colors to dull and white fabric to appear yellow or grey, shortens the life of fabrics in general, causes soap scum rings in your bathtub, streaks glassware and dishes and prevents the soap and shampoo you use from lathering up as well as they should when showering. On their own, each of these can seem like a minor nuisance.

But put them all together and combine them with what hard water can do to your plumbing system and suddenly it’s not such a small problem!

hardnessHard water builds up and forms deposits that clog up your pipes. These deposits, of course, restrict the flow of your water and can corrode pipes, dishwashers and washing machines as well as the various pieces of plumbing equipment you have in your home. Maybe most importantly, hard water causes scale and sediment buildup in your water heater (as pictured in the second image) decreasing heating efficiency, gallon capacity, and the life expectancy of the water heater.

If hard water is such a problem, how do we get rid of it? Stay tuned…!

How To Remove Acid From Your Well Water

Pat Scheper

neutralizer

A few posts ago we talked about acid in your well water and the damage it can cause to your plumbing system- check it out if you missed it the first time around or need a refresher. So, how then do we get rid of that acid? Quite simply, we install an acid neutralizer. Remember that rain picks up carbon dioxide from the air and forms carbonic acid. If the rain water passes through a layer of limestone in the ground, the acid is “removed”, or rather, it is neutralized. A neutralizer acts like the layer of limestone. It is a tank filled with crushed limestone called Calcite. Water passes through the calcite dissolving some of it which raises the pH of the water.

Calcite, being an alkaline mineral, neutralizes the low pH acid water, much like adding hot water to cold in order to get warm water. The diagram to the left is of an automatically backwashing neutralizer. When water flows down over the calcite, it tends to pack the mineral causing restriction of flow (low pressure). In addition, the calcite tends to catch some sediment that is in the water. Periodically (about every 4-6 days) the system will backwash (flush) itself. Water flow is reversed and lifts the calcite so as to “fluff” it up, and captured sediment is flushed out. The water used for this process is washed down a drain.

In some cases where the pH is very low, we mix magnesium-oxide with the calcite creating a “super mix”. Also, depending on the pH and the size of the plumbing system, larger neutralizer tanks will be used.

Now, there is another type of calcite neutralizer-The Up Flow Neutralizer:

upflow neutralizer
upflow neutralizer

In this piece of equipment water flows down the center of the tank through a tube and UP through the calcite. There is no backwashing. The constant flow of water keeps the calcite “fluffed up”. However, the downside is that sediment will gather in the stone bed and the calcite causing the need for periodic re-bedding. Personally, I like the automatic back wash. However, the up flow is more economical, so if money is tight, this can be the way to go.

Both types of neutralizers need annual servicing. The calcite dissolves and needs replenishment.

Finally, there is one more type of neutralizer: The Soda Ash or Chemical Feed Pump system. This system is used for a very low pH or for water that has a high level of dissolved solids. This system pumps a solution of soda ash and water into the water before it enters the well water tank. It is very high maintenance and rather noisy. But, if you need one, you need one.

Thanks for reading- contact us with any further questions on this topic and check back next week for a new entry!

Water Quality- Total Dissolved Solids

Pat Scheper

There are many different components of water quality. While acidity, bacteria and hardness are among the better known, inside the trade one of the key components to water quality is something called Total Dissolved Solids (TDS). TDS is the measurement of the combined amount of organic and inorganic matter contained in water and it is measured in parts per million (ppm). The key here is that the matter is dissolved, which means that the matter has become part of the water.saltintowater TDS is like putting salt into water, as you add the salt it disappears into the water. Pure water would have a TDS of 0ppm. Typical well systems have a TDS anywhere from 50 to 940ppm (our office’s personal record). On average, our customers well water TDS is 150-250ppm.

What makes up TDS in water is generally not known without a laboratory doing a very thorough test on a water sample. TDS can be anything from the chlorine/fluorine cities put into water to minerals dissolved into the water while it is underground to nitrates from fertilizer on wells that are near farms. It is really just a numeric amount of the overall “stuff” that has dissolved into your water. There are always exceptions to the rule, but generally you cannot conclude that a TDS of 500ppm is more of a concern than a TDS of 150ppm. It just depends on what has dissolved into the water to raise the TDS. But the TDS test does not tell us what has dissolved into the water, just how much. Figuring out if part of the TDS is harmful would need to be determined by a separate test, such as chlorine, bacteria, or hardness test. In the rare case your water is making you sick, a laboratory test would be needed. But those are all separate well water issues!

So why are we talking about TDS if it doesn’t indicate harmful substances in your water? Water can only dissolve so much matter before it becomes “full”. Once water becomes “full” any additional matter added to it will not dissolve and just become suspended in the water. Add a tablespoon of salt to a cup of water and it will dissolve. Keep adding salt, however, and eventually the water will not be able to handle any more and the salt will just pile up on the bottom of the glass. The same thing can happen with well water when trying to treat it. Systems such as sediment filters and UV lights remove the “bad components” from the water. But systems such as acid neutralizers and carbon filters dissolve “good components” into water in order to eliminate (or neutralize) the “bad components”. We refer to these “good components” as a sacrificial media, meaning they become depleted as they treat the water. If water has too high a TDS, it becomes difficult to dissolve those good components into the water and special sacrificial media or equipment is needed.

TDS is also used to figure out if certain equipment is working. Equipment such as reverse osmosis systems take out a very wide range of dissolved minerals/organic material in water to give homeowners nearly purified water. On these systems, if the treated water has a much lower TDS than the raw water, we know the equipment is working even if we don’t know what exactly it is removing.

How high of a TDS is too high? Well that depends. Water has the ability to dissolve different levels of matter. For instance, water has trouble dissolving calcite (the standard media in a neutralizer) once the TDS is above 600ppm. Magnesium oxide is a much more potent (and expensive) media to add to a neutralizer but does not have a problem being absorbed by water, even with a TDS well over 600ppm. That is why treating water is so much fun! Every water quality test results in different factors that we must take into account when determining which equipment is right (or wrong) for a plumbing system. TDS may not be as damaging as acid, but if it is ignored it can certainly make water treatment equipment ineffective. Check back next week as we explore what a neutralizer is and how it works!

Acid in Well Water

Pat Scheper

In a previous post we talked about water quality as it pertains to human consumption. However, water chemistry that is not harmful to humans can really be destructive to your plumbing system. One aspect of water chemistry is acid. First, a little refresher on high school chemistry. What do the letters “pH” stand for….and why is the H capitalized? pH is an abbreviation for "power of hydrogen" where "p" is short for the German word for power, potenz and H is the element symbol for hydrogen. The H is capitalized because it is standard to capitalize element symbols. The abbreviation also works in French, with pouvoir hydrogen translating as "the power of hydrogen".

pH is the measure of the acidity or the basicity of an aqueous solution. An aqueous solution is a solution in which the solvent is water. It is water with stuff dissolved in it. So, a cup of coffee with sugar is an aqueous solution. Solutions with a pH of less than 7 are said to be acidic, solutions with a pH greater than 7 are said to be basic or alkaline. Pure water has a pH of 7.

PH_Scale.svg

The pH scale is logarithmic. WHAT?! Yes, those mind numbing logarithm problems from high school algebra do have a real world application. The only thing I have to say about the acid logarithmic scale is that it is exponential and has a base of 10. So, tomato juice (pH of 4) is 10 times more acidic than Black coffee (pH of 5). If you want to know more about the pH scale and logarithms (in which case I’d question your sanity) you can look it up on Wikipedia. Or dust off your old Algebra 2 textbook.

Okay, so how does our well water become acidic? Remember the term “Acid Rain”? There you go-that’s how. When rain falls to the earth, carbon dioxide in the air is dissolved by the rain creating an aqueous solution of water and carbonic acid. This solution seeps into the ground, into aquifers, and eventually into your well. Limestone is a naturally occurring mineral that is able to eliminate acid from water. So if the ground your rain water passes through contains no limestone you will have very acidic water, a solid limestone layer under the ground will remove the acid and give you neutral water, and everywhere in between.

Acidic water is corrosive. That is to say, it causes pinholes in copper water piping, causes water heater and well water tanks to get leaks, prematurely deteriorates faucets, and generally destroys plumbing systems. You may notice blue-green stains on porcelain fixtures (toilets, sinks, etc…). This staining is copper from piping and fittings that has been dissolved into the water from the acidity of the water. Dissolving copper causes weakness in the piping eventually creating pinholes.

How do you raise your pH if you water doesn't naturally pass through a layer of limestone? Read our next blog: How to Eliminate Acid in Your Home’s Water.