SU954697A2 - Regenerative heater - Google Patents

Description

(54) REGENERATIVE STEAM-WATER HEATER

The invention relates to heat exchangers installed in the systems for the regeneration and heat supply of energy steam turbines and designed to heat water with steam drawn from the intermediate stages of the turbine. According to the main author. St. No. 613159, a regenerative steam heater is known; it contains a body in the upper part of which is placed a pipe system for circulating water, and in the lower chamber a condensate and a pipe with openings For removing non-condensing gases, in the case there is a transverse partition, in which a hole is made for the passage of steam into the chamber, and the flow covering the lower part of the pipe system, the bottom of which between the holes for the passage of steam and the removal of gases is perforated l. In a known preheater, the air-vapor mixture, before it enters the pipe, which drains non-condensable gases, passes through an air cooler of a mixing type, formed by jets of supercooled condensate. Subcooling is achieved by flooding them in a tray with a portion of the heating surface formed by the tubes of the first, second, and third or fourth feedwater passages located at the side walls of the tray. Since the temperature of the water in the tubes of the first-second heating surface is lower than in the pipes of the third-fourth stroke, the flow of condensate of heating steam entering the tubes of the first-second stroke is cooled to a lower temperature than the flow of condensate passing through the tube of the third fourth move. The conditions for displacing these flows on the bottom of the tray are hampered by the flooded tubes of the heating surface, as well as the necessity of locating the perforations on the bottom of the pot along its end wall.

Thus, to varying degrees, the supercooled condensate enters the perforation on the bottom of the pot and flows through them with jets that have a different temperature. The jets from the flow of condensate passing through the tube of the first-second stroke have a lower temperature than the streams of the stream of condensate passing through the tube of the heating surface of the third to fourth strokes. The magnitude of the supercooling of condensate that passed the tube of the heating surface of the first – second stroke is 4–5 times the supercooling magnitude of the condensate that passed through the tube of the third – fourth stroke. This non-uniformity in the condensate subcooling condition worsens the possibility of steam condensation from the steam-air mixture to jets of hotter condensate, which leads to an increase in the proportion of steam in the withdrawn air-vapor mixture, and this makes it difficult for the device to remove non-condensing gases. The circuit of the invention is an increase in the economy and efficiency of removing non-condensing gases from the preheater. The goal is achieved by the fact that the regenerative steam-water heater, the housing, in the upper part of which is placed the pipe system, and in the lower part - the condensate collection chamber and the pipe with openings for non-condensing gases as well as a transverse partition reinforced in the housing in which a hole is made for the passage of steam into the chamber, and the flow encompassing the lower part of the pipe system, the bottom of which between the holes for steam transfer and gas exhaust is perforated, provided with an auxiliary sheet with one and pi more holes, placed in a tray parallel to its bottom, and a C-shaped partition located between the sheet and the bottom of the tray under the hole in the sheet. FIG. 1 shows the proposed heater, longitudinal section; Fig. 2 shows section A-A in Fig. 1; the Preheater includes a housing 1, in the upper part of which is placed the tube system 2, and in the lower part — a condensate collection chamber 3 and a pipe 4 with openings 5 for removing non-condensable gases. a transverse partition 6 in which an opening 7 is made for the passage of steam into the chamber 3, and a tray 8 covering the lower part of the pipe system 2, the bottom of which between the openings 5 and 7 for the passage of steam and the removal of gases is perforated. The heater is also provided with an accessory sheet 9 with one needle over holes 10 placed in tray 8 of the bottom of its bottom and Shaped partition 11 located between plate 9 and the bottom of sweat 8 under hole 10 in the plug 9.

Claims (2)

In the housing 1, the horizontal and vertical guide partitions 12 and 13 are placed with the formation of canaps 14 for draining condensate from the horizontal partitions 12, the casing 15 and the cup 16, the lower part I of the casing 15 and the cup 16, together with the partition 6 form a hydraulic lock that prevents the flow heating steam in the chamber 3. Tray 8 has an end wall 17, the device operates as follows. The feed water flows through the corresponding port on the water chamber to the heater and, having made several strokes in the pipe system 2, is removed from it through the pipe on the water chamber. Heating steam through the pipe on the body 1 of the heater enters the annular space, where it condenses on the heating surface of the pipe sistegla 2. Condensate of heating steam from horizontal guide partitions 12 through channels 14 enters flow 8, in which a certain level of condensate is established over an additional sheet 9 in accordance with the height of the end wall 17. Below the level of this condensate is part of the bends of the heating surface pipes. Due to the appropriate arrangement of the openings 1O in the additional sheet 9, the condensate of heating steam in an organized stream washes the bends of the heating surface pipes, supercooled and flows through the holes 10 to the perforated bottom of the tray 8. In this case, intensive flows of the condensate of heating steam having passed through the tube of the heating surface of the first-second stroke, and therefore having the greatest supercooling with respect to the saturation temperature, and the flow of condensate that passed the felling of the third or fourth stroke, having a minimum supercooling rate. Thus, due to the installation of an additional sheet 9, the average temperature of the condensate coming to the perforation made on the bottom of the pot 8 is equalized. The C-shaped partition 11 ensures a uniform supply of condensed condensate at the same temperature along the entire front of the perforation. Due to the same temperature of the supernatural condensate flowing out of the pots bottom holes, there is no temperature distortion and flow of steam; the air-air mixture evenly flows to the jets along their entire front, which improves the conditions for the condensation of steam from this mixture to increase the air concentration in and to increase the efficiency of removing non-condensing gases (air) from the preheater body, due to more complete condensation of steam on the jets of supercooled condensate, which form a bias in zduhoohladitel holds additional effect polozh.ite.lno effect yuschy work preheater - increasing the heat transfer coefficient from vapor ,. ultimately, an increase in the temperature of the water leaving it. This increase in water temperature is due to the fact that the steam flow condensed on the supercooled condensate transits through the entire tube pipe, increasing the average steam flow rate in it and reducing the possibility of formation of stagnant and poorly ventilated zones (areas). Increasing the average speed of the steam tray, improving the ventilation system of the piping system and evacuating non-condensable gases with a transit steam flow, along with an increase in air concentration in the exhaust steam-air mixture, increases the temperature of the feed WATER at the outlet and thereby increases the efficiency of the heater and turbine as a whole. Claims of the invention Regenerative steam water heater according to aut. St. No. 613159, characterized in that, in order to increase the economy and efficiency of removal of non-condensing gases, it is provided with an additional sheet with one or more openings placed in the tray parallel to its bottom, and a C-shaped partition located 1, DU sheet and bottom tray & under the hole in the sheet. I Sources of information taken into account during the examination 1. USSR author's certificate No. 613159, cl. F 22 D 1/32, 1976.