SU1101614A1 - Electrode steam generator - Google Patents

Abstract

1. ELECTRODE STEAM GENERATOR, containing a vertical cylindrical body with steam and feeding pipes, under the outlet of the latter of which, in the upper part of the body, an annular feed box is installed with holes in the side wall, mounted on a zero cylindrical electrode enclosing the phase electrodes, which is only the fact that, in order to increase the steam-production capacity and reliability by equalizing the heat release over the interelectrode space of the steam generator, the zero electrode is installed in With the formation of a peripheral lowering annular channel, in which the said nutrient box is located. fig1

Description

2, The steam generator according to claim 1, of which is, in order to improve the quality of steam, it is equipped with a separator, made in the form of a casing with vertical rectangles forming a labyrinth channel located in the housing and having an outlet located coaxially with the steam inlet of the housing.

The invention relates to power engineering and can be used in devices for electrode steam generators. The electrode steam generator is known, comprising a housing filled with an intermediate heat carrier, in which a heat exchanger and a front electrode are mounted, enclosed by a cylindrical yule electrode, which forms an annular stub channel lj with the housing. The disadvantage of the steam generator is the complexity of the design and operation, due to the use of an intermediate heat carrier. The closest to the invention is an electrode steam generator 5 containing a vertical cylindrical body with steam and feeding pipes, under the outlet of the latter of which in the upper part of the body is installed: an annular feed box with holes in the side wall mounted on the zero cylindrical the electrode enclosing the phase electrodes, the zero electrode being the body of the steam generator 2J. The disadvantage of the known device lies in the low steam output and low hope Property in the result of a substantial non-uniformity of heat generation of the steam volume. The aim of the invention is to increase the steam capacity, the reliability of the steam generator and the increase in steam quality. The goal is achieved by the fact that in the electrode steam generator, containing a vertical cylindrical body with steam and feeding pipes, under the outlet opening of the latter of which, in the upper part of the body, an annular feed box is installed with holes in the side wall, fixed on the zero cylindrical electrode covering phase electrodes, the zero electrode is installed in the housing with the formation of a peripheral descending annular channel in which the said feeding box is located. The steam generator is equipped with a separator, made in the form of a casing with vertical rectangular plates that form a labyrinth channel, located in the housing and having an outlet opening coaxially located with the steam branch pipe of the housing. Figure 1 shows a variant of the proposed steam generator with three phase electrodes, a longitudinal section; figure 2 - section aa in figure 1. The electrode steam generator contains a vertical cylindrical body 1 with steam and feed connections .2 and 3, respectively, and an annular feed box 4 with openings 5 in the side wall is installed under the outlet of the latter. The box 4 is fixed on the zero cylindrical electrode 6, which encloses the phase electrodes 7 and forms with the case 1 a peripheral lowering annular channel 8 in which the feeding box 4 is installed. The steam generator is equipped with a steam separator, made in the form of a casing 9 with vertical rectangular plates 10, forming labyrinth channel 11. The outlet 12 of the casing 9 is located coaxially with the steam nozzle 2 of the housing 1. The bottom of the casing 9 of the separator can be at the same time the base of the feed box 4. The housing 1 is equipped with a removable roof 13 th, where strengthening of all internal components.

Electrode steam generator operates as follows.

The nutrient water enters through the nozzle 3 into the nutrient duct 4 and through the holes 5 in its side wall 5 flows into the descending annular channel 8, evenly distributed over its cross section. For this, the holes 5 should be located as evenly as possible around the perimeter of the duct 4. 10

In steady-state operation, the feed water is first heated by condensation of a portion of the steam: In the steam space of channel 8, and 15 then due to mixing with hotter boiler water in the water volume of channel 8. Then the water enters the internal cavity of electrode 6 evenly through its perimeter is almost 20 heated to boiling point. This ensures a uniform vaporization across the cross section of the inner cavity of the electrode 6-, where phase electrodes 7 are installed, thereby eliminating possible phase distortions and the electrical danger of the steam generator.

The resulting water vapor on the inner cavity of the zero electrode 6 is directed to the cap 13 of the housing 1. The upper end of the zero electrode 6 is located above the steam nozzle 2, blocking the direct flow of steam into it, and the annular channel 8 between the zero electrode 6 and the body in the zone adjacent to the steam nozzle 2, is blocked by the upper part of the separator duct 9, which allows the steam to be evenly removed from the evaporation mirror.

The proposed steam generator improves steam output reliability and quality of steam by equalizing the energy release over the interelectrode space.

-BUT

Claims (2)

1. ELECTRODE STEAM GENERATOR, comprising a vertical cylindrical housing with steam and feed nozzles, under the outlet of the latter of which an annular feed box is installed in the upper part of the housing with holes in the side wall, mounted on a zero cylindrical electrode encircling the phase electrodes, o the fact that, in order to increase steam production and reliability by equalizing heat dissipation along the interelectrode space of the steam generator, a zero electrode is installed in the housing with formation <g Niemi peripheral annular downcomer channel in which is located said nutrient duct. SU, „> 1101614 2, Steam generator according to π. 1, which, in order to improve the quality of steam, it is equipped with a separator made in the form of a casing with vertical rectangular plates forming a labyrinth channel located in the casing and having an outlet located coaxially with the steam pipe of the casing.