SU812764A1 - Method of preventing carbonate deposits in aqueous solutions - Google Patents

Description

one

The invention relates to the water supply of industrial enterprises, namely, a method for preventing carbonate sediments in aqueous solutions, and can be used in metallurgical production in organizing recycled water supply, and can also be used in the desalination of salt water by distillation and thermal disposal of sewage.

There is a method of preventing carb | onate deposits in aqueous solutions by introducing seeds into them. Calcium carbonate crystals range ij,.

The disadvantage of this method is that the introduction of seed crystals in the form of calcium carbonate crystals reduces the process of supersaturation of solutions only for calcium carbonate and does not decrease calcium sulfate / especially, in solutions that undergo scaling during thermal stretching, distillations upont rescoring water in the solutions entering the circulating water supply system.

Closest to the offer is a way to prevent

2

bonate deposits in aqueous solutions, including their treatment with ammonium i2 chloride.

The disadvantages of this method are the inefficiency and also the impossibility of preventing calcium sulfate deposits.

The purpose of the invention is to reduce the cost of the process while at the same time preventing sulphate deposits.

This goal is achieved by introducing ammonium chloride in the form of a regenerate ion-exchange desalination of sewage containing ammonium and sodium nitrate salts.

CI regeneration of ion-exchange desalination of wastewater is introduced in an amount of 10-1: 1 with respect to carbonate and sulphate deposits, respectively.

Example. Production solution of composition, mg / l: Ca 648} Na 208), C1 314}: MO 20; pH 7.9 is treated with a neutral solution of ion exchange exalted desalting effluent of the following composition, g / l: 165, NaNO 10.5; NHi4.Cl 6.2. At the same time, a control solution is prepared.

The test solutions are stirred for 8 hours, asserted for 10 hours, re-mixed for 1 hour, and after sampling, the latter are left to stand for a week.

The formation of precipitates (carbonate carbonate and calcium sulfate) was observed only in the control sample (when treated with distilled water).

The results of the experiments show that when treating aqueous solutions by regenerating ion-exchange desalination of wastewater / injected in an amount of 10-1: 1 rio with respect to carbonate and sulphate deposits, respectively, the supersaturation of the solutions in terms of hardness salts is removed. At the same time, with the amounts of the introduced regenerate more and less than the specified: no effect limits are observed.

The monomiality of the process is due to both the use of industrial waste as a chemical reagent and the complete prevention (of carbonate and sulphate calcium salts) of deposits in aqueous solutions.

Claims (2)

1. A method of preventing carbonate deposits in aqueous solutions, including treating them with ammonium chloride, characterized in that, in order to reduce the cost of the process while simultaneously preventing sulfate deposits, ammonium chloride is introduced as a regenerate of ion-exchange desalting of wastewater containing ammonium and sodium nitrate salts. 2. A method according to claim 1, characterized in that the ion-exchange desalting agent for waste effluent is introduced in an amount of 10-1: 1 in relation to carbonate and sulphate deposits, respectively. Sources of information taken into account in the examination 1.hShub VB and Panghelet G.S. Prevention of dense salt deposits in circulating water supply systems. - Non-ferrous metals, 1972, 1, p. 20. 2. Authors certificate of the USSR 474509, cl. F 02 B 5/06, 1975.