SU958767A1 - Steam separator - Google Patents

Description

The invention relates to energy, in particular to separation devices of steam generators.

A steam separator is known, containing a horizontal cylindrical body with ’inlet and outlet pipes, located in the water volume, the body is immersed in a hole shield, and in the steam there is a ceiling hole sheet Ts ^ d. The disadvantages of this separator are the low productivity and efficiency of steam separation.

Closest to the proposed technical essence is a steam separator containing at least two cylindrical horizontal housings equipped with steam outlet pipes and interconnected bypass steam piping through cylindrical: sleeve in steam. the volume of the buildings and adjacent with their lower ends to the ceiling hole sheets [2].

However, the known separator is not efficient enough. the presence of a steam bypass from one body to another leads to the appearance of a downward steam jet in a less loaded body and an intense upward steam flow in a more loaded one, which destabilizes the dynamic steam-water layer in the bodies, vortex flows, and, ultimately, increases humidity steam sent to the consumer.

The purpose of the invention is to increase efficiency by improving the quality of the steam.

This goal is achieved in that the well-known steam separator containing at least two cylindrical horizontal housings equipped with steam outlet pipes and interconnected by a steam pipe through cylindrical bushings located in the steam volumes of the housings and adjacent with their lower ends to the ceiling hole foxes Tatyi is equipped with mounted each sleeve with a gap of screens with a diameter larger than the diameter of the end face of the sleeve.

In this case, ’screens can be perforated.

The drawing shows a steam separator, a General view.

The steam separator contains at least two cylindrical horizontal housings 1 and 2. Housings 1 and 2 are equipped with steam outlet pipes 3 and 4 and are interconnected bypass

958767 4 by steam line 5 through cylindrical bushings 6 and 7. Bushes 6 and 7 are placed in steam volumes 8 and 9 of buildings 1 and 2., respectively. The lower ends of bushings b and 7 are adjacent to the hole holes, sheets 10 and 11, respectively. Under 5., Each sleeve 6 and 7 has a gap of 12 and 13, respectively, with the diameter of the screens 12 and 13 longer than the diameter of the end of the bushings 6 and 7. The screens 12 and 13 can be made 10 perforated. The size of the gap h between the sleeves 6 and 7 and the corresponding shields 12 and 13, the rounding radius of the ends of the sleeves 6 and 7 are selected so that the hydraulic resistance 15 of the separators with screens does not exceed the resistance of the separators without them.

The separator works as follows. 2Q

Part of the steam flow from a more loaded, for example, case 1, from the steam volume 8 through the bypass steam line 5 enters the steam volume 9 of the housing 2. Next, the steam passes through the £ 5 gap between the sleeve 7 and the screen 13 into the upper part of the steam volume 9 'and through the ceiling hole sheet 11 in the steam outlet 4 to the consumer. The perforation of the screens 12 and 13 is selected so that the reduced lifting velocity of the steam under the ceiling hole sheets 10 and 11 and under the screens 12 and 13 are equal. In this case, there is minimal distortion of the rising steam flow in the steam volumes 8 and 9 and, therefore, the minimum steam humidity at the outlet. The presence of steam bypass leads to an equal flow of steam from the buildings 1 and 2 through the steam outlet pipes 3 and 4, which also ensures equalization and stabilization of the water levels in them.

The supply of the steam separator installed under each sleeve with a gap of screens with a diameter larger than the diameter of the end face of the sleeve allows to increase the efficiency of the separator by improving the quality of the steam due to the elimination of oncoming flows of the bypassed and exhausted steam, lowering the hydraulic resistance and stabilizing the water level in the housings.

Claims (2)

The invention relates to a power source in particular to steam generator separation devices. A steam separator is known that contains a horizontal cylindrical tank with SUBTLEMENT and discharge patches located in a water volume, a submerged perforated shield housing, and a ceiling perforated sheet in a steam compartment. The disadvantages of such a separator are low productivity and efficiency of steam separation. The closest to the proposed technical entity is a steam separator containing at least two cylindrical horizontal bodies, equipped with steam exhaust pipes and interconnected bypass pipelines, through cylindrical sleeves placed in new, volume housings and adjoining to their ceiling ends perforated sheets 23. However, the known separator is not sufficiently effective since. the presence of a steam transfer from one housing to another leads to the appearance of a downward steam jet in a less loaded housing and an intense upward steam flow in a more loaded one, which leads to a destabilization of the dynamic steam layer in the hulls, a whirlwind of bbw flows and, ultimately , in order to remove the moisture content of steam sent to the consumer. The purpose of the invention is to increase efficiency by improving steam quality. This goal is achieved by the fact that the well-known steam separator, containing at least two cylindrical horizontal bodies equipped with steam discharge pipes and interconnected by an overflow steam pipe through cylindrical sleeves placed in the steam volumes of the bodies and adjacent to the ceiling hole-like sheets, is fitted with under each sleeve with a gap screens with a diameter, the larger diameter of the end of the sleeve. At the same time, screens can be made perforated. The drawing shows a steam separator, a general view. The steam separator contains at least two cylindrical horizontal bodies 1 and 2. Cases 1 and 2 are equipped with steam discharge pipes 3 and 4 and are interconnected by a bypass steam pipe 5 through cylindrical sleeves b and 7. Sleeves b and 7 are placed in steam volumes 8 and 9 respectively, buildings 1 and 2. The bottom ends of the sleeves 6 and 7 are adjacent to the ceiling hole sheets 10 and 11, respectively. Under each sleeve b and 7 are installed with a gap of screens 12 and 13, respectively, while the diameter of the screens 12 and 13 is larger than the diameter of the end of the sleeves b and 7. Screens 12 and 13 can be made perforated. The size of the gap h between the sleeves 6 and 7 and the corresponding screens 12 and 13, the radius of laziness around the ends of the sleeves b and 7 are chosen so that the hydraulic resistance of the separators with screens does not exceed the resistance of the separators without them. The separator works as follows. Part of the steam flow from the more heavily loaded, for example, housing 1 from the steam volume 8 via the bypass steam line 5 enters the steam volume 9 of the housing 2. Then steam through the gap between the sleeve 7 and the screen 13 pass into the upper part of the steam volume 9 and through the ceiling perforated sheet 11 into the steam outlet pipe 4 to the consumer. Perforations of screens 12 and 13 under. It is taken in such a way that the reduced steam lifting speeds under the ceiling perforated sheets 10 and 1 and under the screens 12 and 13 are equal. In this case, there is a minimum distortion of the ascending steam flow in vapor volumes 8 and 9 and, therefore, the moisture content at the outlet is minimal. The presence of steam transfer leads to equal consumption of steam from buildings 1 and 2 through the steam discharge pipes 3 and 4, which also ensures the leveling and stabilization of water levels in them. The supply of a steam separator with screens with a diameter larger than the end of the sleeve installed under each sleeve with a gap allows the separator to be more effective by improving the quality of steam by eliminating counter flows of bypass and exhaust steam, reducing hydraulic resistance and stabilizing the water level in the housings. Claim 1. A steam separator comprising at least two cylindrical horizontal bodies provided with steam discharge pipes and interconnected by a vapor return pipe through cylindrical bushings placed in the steam volumes of the bodies and adjacent to the bottom of the hollow ceiling sheets, characterized in that , in order to increase efficiency by improving the quality of steam, it is equipped with screens installed with a diameter larger than the diameter of the end of the sleeve installed under each sleeve. 2. The separator according to claim 1, that is, with the fact that the screens are perforated. . Information sources, . taken into account during the examination 1. USSR author's certificate No. 254522, cl. F 22 V 37/26, 1968. 2. Optimization of the internals and the tying of drums for separators of the RBI-K-1000 reactor. Technical Proposal. M., Glavatomenergo, NPO Energie, .1977, p. 29, fig. 4.6. / "