SU632655A1 - Apparatus for thermal softening of water - Google Patents

Description

(54) APPARATUS FOR THERMAL IMMEDIATION OF WATER

The invention relates to the field of thermal abatement of waste and other treated waters, which contain a considerable amount of calcium ions and sufat ions.

A well-known apparatus of thermal thermal damping dp includes a vertical cylindrical body with a spherical bottom and a lid, a joint for entering water fixed in the lid along the axis of the housing, a collector with dp pipes for introducing steam, and pipes for water and sludge.

In that. In the apparatus in the upper part of the body, the mild parrot hydrate crystals with water pass through the sediment of suspended sediment, maintaining in it the content of capitate sulphate at the level of its solubility. In this case, the residual content of calcium sulfate in softened water is twice as high as the solubility of the anhydride. This is the main disadvantage of the known apparatus.

With a chain of more complete deposition of supe- (calcium calcium, an increase in production

BONES and speeding up the process due to the circulation of the solution, the apparatus is equipped with a cylindrical shell installed on the housing axis with conical upper and lower ends and a truncated reflector cone fixed by a foamy smaller base on the lower end of the shell and the upper end of the shell is connected to a water seal.

In addition, the apparatus is equipped with lifting airlift tubes connected to the steam inlets and a conical valve, installed along the axis of the housing inside the lower end of the cylindrical shell, which can be moved in the vertical direction.

The drawing shows the proposed apparatus, a longitudinal section.

The device dp thermal water softening consists of a vertical cylindrical body 1 with a spherical bottom 2 and a lid 3, a nozzle 4 dp water inlet fixed in the lid along the axis of the body, a collector 5 with nozzles 6

The steam inlets and the pipes 7 and 8 and the water and sediment water, respectively.

A cipher 9 shell with a tapered top is installed along the axis of the housing.

10 and the bottom 11 ends. At the bottom end 11, a truncated reflective cone-12 is fixed with a smaller base, and the top end of the shell 10 is connected to

pipe 7 in the goda water. Near the walls of the casing there are elevating air-lifting pipes 13 connected to the nozzles 6 for introducing gas, and inside the lower end

11 along the axis of the housing is mounted with the ability to move in the vertical direction the conical valve 14,

The device works as follows. The feed water is injected through the nozzle 4 and is heated by a displacement from the steam supplied through the pipes 13. As a result of the decrease in solubility, calcium sugate as a hemihydrate begins to be released from the water, both by the formation of small crystals and by the growth of previously formed crystals. The water along with the crystals descends along the annular gap formed by the body of the apparatus 1 and the shell 9. The semi-hydrate crystals settle in a truncated cone 15, from which some of them through pipes 13 reckon the force generated by the steam, return to the upper part of the apparatus and serve an additive that accelerates the crystallization of calcium sulfate from solution,

After separating the water from the crystals, it bends around the cone 12 and enters the lower end 11 filled with anhydride. Since the content of calcium sulphate in this water is equal to the solubility of the parrot hydrate, at the end of 11, it is possible to crissolve. anhydride on the surface of the contact mass and a further decrease in the concentration of calcium sulfate below the solubility of the polyhydrate.

After the crystallization process is completed, the water is separated from the anhydride crystals and discharged through the nozzle 7.

The valve 14 moves due to the rotation of the stem 16 and serves to regulate the inlet section of the lower end 11 when the amount of treated water is changed, as well as to periodically bypass a part of the crystalline additive from the end 11 into the cone 15, from which calcium sulfate crystals are periodically discharged through the nozzle 8.

Claims (3)

1. A device for thermally softening water, including a vertical cylindrical body with a spherical bottom and a shank, a nozzle for introducing water fixed in a lid along the axis of the housing, a manifold with nozzles for introducing steam and nozzles for withdrawing water and sediment, characterized in that, in order to release calcium sulfate more completely and to increase productivity, it is equipped with axially mounted housing a cylindrical shell with a conical upper and lower ends and a truncated reflective cone attached to a smaller base on the lower end of the shell, with the upper end of the shell connected to the branch pipe of water. 2. The apparatus is pop, 1, which is also distinguished by the fact that, in order to accelerate the process due to the circulation of the solution, it is equipped with lifting airlift tubes connected to the nozzles for steam inlet, 3. The apparatus according to claim 1, wherein it is provided with a conical valve installed along the axis of the housing inside the lower end of the cylindrical shell with the possibility of movement in the vertical direction. Sources of information taken into account in the examination; 1. Rykhno A. Yu., Use of sea water at thermal power stations, M, Energiya, 1974, figs 6-4a and 6-46 w gz f6 15