Safety

Hydrochloric acid in high concentrations forms acidic mists. Both the mist and the solution have a corrosive effect on human tissue, with the potential to damage respiratory organs, eyes, skin, and intestines. Upon mixing Muriatic acid with common oxidizing chemicals, such as bleach (NaClO) or permanganate (KMnO₄), the toxic gas chlorine is produced. To minimize the risks while working with hydrochloric acid, appropriate precautions should be taken, including wearing rubber or PVC gloves, protective eye goggles, and chemical-resistant clothing.

Precautionary measures : Use protective gloves and goggles. If the reagent enters the skin, eyes, rinse with plenty of water, consult a doctor.  If a reagent leakage is collected with sand or other absorbent material, rinse the contaminated surface with water.  Before use, read the additional information in the Safety Instructions. 

The presence of certain metal ions in water causes a variety of problems. These ions interfere with the action of soaps. They also lead to build up of limescale, which can foul plumbing, and galvanic corrosion.

Conventional water-softening appliances intended for household use depend on an ion-exchange resin in which “hardness ions” – mainly Ca2+ and Mg2+- are exchanged for sodium ions. Ion exchange devices reduce the hardness by replacing magnesium and calcium (Mg2+ and Ca2+) with sodium or potassium ions (Na+ and K+).”

Ion-exchange softeners are used extensively in small water systems and individual homes apart from Industry. Ion-exchange resin, exchanges one ion from the water being treated for another ion that is in the resin (sodium is one component of softening salt, with chlorine being the other). Ion Exchange resin exchanges sodium for calcium and magnesium. The following chemical reactions show the exchange process, where R represents Resin, the exchange material.

Removal of carbonate hardness:

Ca(HCO3)2 + Na2R ——> CaR + 2NaHCO3

Mg(HCO3)2 + Na2R ——> MgR + 2NaHCO3

Removal of non-carbonate hardness:

CaSO4 + Na2R —– > CaR + Na2SO4

CaCl2 + Na2R ——> CaR + CaCl2

MgSO4 + Na2R ——> MgR + Na2SO4

MgCl2 + Na2R ——> MgR + 2NaC1

Ion exchange resins are organic polymers containing anionic functional groups to which the divalent cations (Ca++) bind more strongly than monovalent cations (Na+).

Ion-exchange does not alter the water’s pH or alkalinity. However, the stability of the water is altered due to the removal of calcium and magnesium and slight increase in dissolved solids. For each ppm of calcium removed and replaced by sodium, total dissolved solids increase by 0.15 ppm. For each ppm of magnesium removed and replaced by sodium, total dissolved solids increase by 0.88 ppm.

When all the available Na+ ions have been replaced with calcium or magnesium ions, the resin must be re-charged by eluting the Ca2+ and Mg2+ ions using a solution of sodium chloride. The waste waters eluted from the ion exchange column containing the unwanted calcium and magnesium salts are typically discharged to the sewage system in case of household units.