In the operation of the present inv

In the operation of the present invention, it has been found that the total hardness concentration consisting of the combination of magnesium and calcium values measured at the effluent from the regeneration column must be a value of not greater than 16,000 ppm measured as calcium carbonate in order to obviate the difficulties encountered during later treatment of these values by an alkali metal treating agent as here a combination of sodium carbonate (soda ash) followed by sodium hydroxide.

It has been further found that high concentrations of hardness in the effluent brine can be obviated by increasing the regenerant level of sodium chloride measured in pounds per cubic foot of the column. Table 1 illustrates the utilization of increasing amounts of brine regenerant by volume in gallons which increases the total amount of sodium chloride and increases the regenerant level of sodium chloride in pounds per cubic foot. Based upon a 70 cubic foot reactor and utilizing Dowex HCR-W, a sulfonated styrene-divinylbenzene resin, the calculated total hardness value will drop below 16,000 ppm at about a brine volume (10% NaCl) of 2,000; whereas, for new resin with considerably increased capacity, a brine volume of between 2,500 and 3,000 is necessary to reduce the total hardness below 16,000 ppm. Where the regeneration process was operated to give total hardness values of no greater than 16,000, the precipitate later obtained was manageable in character and suitable for some; whereas, when this value was exceeded, the precipitate was gelatinous in nature and produced serious process consequences. It is believed the gelatinous nature of the precipitate is due to the presence of magnesium hydroxide which may form magnesium carbonate in one or more hydrated species of waters of hydration.