 Water
Quality Basics
Forty-seven
percent of the United States depend on ground
water for their basic drinking water supply.
Having a basic understanding about ground water
quality will help ensure that your well is
supplying potable water for your household.
Along with
human activities, water quality is affected by a
combination of natural processes. Most relate to
chemical compositions underground. However,
other factors such as biological, physical, and
radiological conditions can affect water quality
as well.
The National
Ground Water Association recommends that water
well owners have their wells checked and tested
by a certified and/or licensed contractor every
year to ensure water safety.
Naturally occurring
water contaminants:
- Hard water
- Iron
- Nitrogen
- Silica
- Sulfur
- Total
Dissolved Solids
Hard
Water
The most common problem associated with ground
water may be hardness, generally associated with
an abundance of calcium and/or magnesium
dissolved in the water. Hard water has not been
shown to cause health problems, but can be a
nuisance as it may cause soap curds and deposits
to form on pipes and other plumbing fixtures.
Over time this can reduce the diameter of the
pipes.
Calcium and
magnesium are found in ground water that has
come in contact with certain rocks and minerals,
especially limestone and gypsum. When these
materials are dissolved, they release calcium
and magnesium. Hard water is considered bad for
your plumbing, but people with heart or
circulatory problems may want to consult their
physician about drinking softened water, because
the softening process removes calcium and
magnesium, and adds sodium to the water.
Iron
and Manganese
A "rusty" or metallic taste in water is a result
of iron, and sometimes manganese, in ground
water. They not only create a bad taste, but
they also can stain pipes and clothing.
Iron and
manganese are naturally occurring, and most
ground water has some amount of dissolved iron
and manganese in it. It comes from contact with
minerals that contain iron, such as pyrite.
There are
several treatment methods. Installing a water
softener may help if iron and manganese are
present in low quantities and the softener is
designed for their removal. Aeration (the
addition of oxygen to the water), chlorination,
and feeding ozone or hydrogen peroxide can aid
in the precipitation of iron, which it is
removed from the water by filtration. Potassium
permanganate feed with manganese greensand
filters, and some recently designed synthetic
media, will remove iron and manganese, as well.
Nitrogen
Most nitrogen
in ground water comes from the atmosphere. Some
plants can "attach" nitrogen from the atmosphere
onto their roots. The nitrogen not used by the
plants is then released into the soil.
Nitrogen
compounds also can work their way into ground
water through fertilizers, manure, and urine
from farm animals, sewage, and landfills.
The most
common forms in ground water are ammonia,
nitrate, and nitrite. Nitrates can be especially
toxic to children under six months of age.
Exposure to ammonia also presents a health risk.
It is toxic to aquatic life such as fish, and it
interferes with water treatment.
There are a
variety of treatment methods to correct this
problem, including reverse osmosis systems with
water softeners to remove nitrates and nitrites,
and oxidation to remove small amounts of
ammonia. However, treatment should be a last
resort. Removing the source of contamination is
the first priority. You should also be sure to
protect the area around the wellhead from
contamination by animals or fertilizers.
Silica
Silica comes
from the weathering of silicate minerals in the
ground. It causes no harmful effects to humans,
but large amounts can cause scaling in pipes
that impacts water flow, and it can interfere
with iron and manganese removal.
Sulfur
Sulfur can
occur in ground water in two forms: sulfides and
sulfates. Sulfides are naturally occurring in
much of the United States in limestone
containing organic materials; ground water
affected by oil, gas, and coal deposits; in
marshes and manure pits; and in the byproduct of
well-established iron biofilms. Sulfates often
come from the dissolving of minerals, such as
gypsum and anhydrite.
A “rotten
egg” smell coming from your water indicates the
presence of hydrogen sulfide gas. Along with
creating an unpleasant odor and taste, sulfides
cause corrosion to plumbing and darken water.
There are
several methods for treating sulfur. Aeration,
ozone, hydrogen peroxide, and chlorine (best
followed by filtration) are effective against
dissolved hydrogen sulfide or gas. A reverse
osmosis system, nanofiltration system, or a
negative ion-exchanger also can be effective in
reducing sulfates. Filtration is necessary in
combating sulfur formation as a mineral or in
biofilms.
Total Dissolved Solids
TDS, as it is
commonly known, is the concentration of all
dissolved minerals in water. It is the direct
measurement of the interaction between minerals
and ground water.
TDS levels
above 1000 mg/L will usually yield poor tasting
water. Levels above 2000 mg/L are considered
undrinkable due to taste, and levels more than
10,000 mg/L are defined as undrinkable.
Water
softeners with a reverse osmosis system are
effective in lowering the TDS to satisfactory
levels.
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