 |
Water softening
involves the use sodium form cation exchange resins
in an ion exchange column the to exchange hardness
causing ions such as calcium, magnesium and barium,
etc.
Hard water - water containing calcium and magnesium
ions is admitted to the ion - exchange column.
|
Before being contacted by the water, the resin particles
have associated with them only mobile, replaceable
sodium cations and fixed, irreplaceable anions. There
are, of cause, thousands of particles in a typical
exchanger unit, each particle containing not just
a few ions, but literally billions.
Exchange is initiated. Some of the calcium and magnesium
ions are adsorbed by the resin which in turn, releases
sodium ions. Two sodium ions are released for each
calcium or magnesium ion.
The resins particle is exhausted of its sodium ions;
now contains calcium and magnesium. In actual practice,
a few sodium ions generally remain on the exchanger.
The effluent water is now soft - does not contain
hardness producing cations. The resin bed may now
be regenerated by adding to it a solution containing
sodium ions - most frequently, sodium chloride.
Softening resin is not capable of removing 100% of
the calcium and magnesium hardness. Some leakage will
occur. The degree of leakage is affected by the total
dissolved solids (TDS) of the raw water and the regeneration
level of the resin. Typical regeneration level are
from 6 to 15 pounds of salt per cu. ft. of resin.
As the TDS content increases, the regeneration level
must also increase to maintain the hardness leakage
at an acceptable low level. From a practical view,
water softeners are designed and operated to produce
effluent water quality of less than 1 ppm of total
hardness.
Water softening can be used not only to remove scale-forming
compounds (such as calcium, barium, strontium, and
iron) but also to enhance the stability of colloidal
silt particles.
|
