SU1062495A1 - Steam condenser - Google Patents

Abstract

I. A steam CONDENSER containing a condensation chamber with a beam of heated pipes, a gas outlet pipe and steam inlets and a condensate outlet, the latter of which is connected to a condensate collector having a water vapor over the steam and a vapor – gas mixture provided with a vapor – gas mixture outlet that is different By the fact that, in order to increase its economy and reliability, the gas outlet pipe is placed in the condensate outlet pipe and introduced at one end into the vapor-gas cavity of the condensate collector, and at the other end into the condensate onnuyu chamber. 2. Condenser according to Claim 1., characterized in that the steam supply pipe is provided with a distribution nozzle located in the condensation chamber and made in the form of a hollow perforated cylinder 3 The condenser in paragraphs 1 and 2, characterized in that the gas exhaust pipe is made of flexible material and installed in the condensate drain pipe with the possibility of axial movement, and its end, placed in the condensation chamber, is provided with a float.

Description

The invention relates to energy and can be used in devices for steam condensers and steam superheaters With a condensation path. Known steam condenser containing 1 | housing with steam supply and condensate collectors connected by tube bundle 1. The disadvantage of this device is reduced reliability due to temperature fluctuations of the pipe walls due to the presence of non-equilibrium two-phase flow in their lower part. Closest to the invention is a steam condenser containing a condensation chamber with a beam of heated pipes, a gas outlet pipe, and steam supply and condensate drain connections, the latter of which is connected to a condensate collector having a water and vapor-gas cavity and provided with a vapor outlet gas mixture, and the gas outlet The conduit tube is placed outside the condenser 2. The disadvantages of the known device are reduced efficiency and reliability due to the loss of steam and heat, along with non-condensing imis gas. E and presence of an additional tube in the condensing chamber .. The purpose of the invention is the Enhance efficiency and reliability of the steam condenser. The goal is achieved by the fact that in a steam condenser containing a condensation chamber with a beam of heated pipes, a gas outlet pipe and nozzles for supplying steam and condensate, the last of which is connected to a condensate collector having a water and steam-gas cavity and provided with a vapor outlet gas-vapor mixture outlet The pipe is placed in the condensate drain pipe and is wound with its one end into the vapor-gas cavity of the condensate collector, and the other into the condensation chamber. The steam supply pipe can be equipped with a distribution nozzle placed in the condensation chamber and made in the form of a hollow perforated cylinder. The gas outlet pipe can be made of flexible material and installed in the condensate drain pipe with the possibility of axial movement, and its end, placed in the condensation chamber, is provided with a float. FIG. 1 shows a steam condenser, a cut; in fig. 2 — one of the mounting options for the gas exhaust pipe; in fig. 3 shows another variant of fastening the gas exhaust pipe; in fig. 4 — device for spacing gas exhaust pipe; in fig. 5 is one of the embodiments of the steam condenser. The steam condenser contains a condensation chamber 1 with a beam 2 heated coarse, a gas outlet pipe 3 and nozzles 4 and 5, respectively, supplying steam and condensate, the last of which is connected to the condensate collector 6, having water and vapor-gas cavities 7 and 8, respectively, and provided with a nozzle 9 removal of steam-gas mixture. In order to intensify the heat exchange, the steam supply pipe can be provided with a distribution nozzle 10, made in the form of a hollow perforated cylinder. The gas exhaust pipe 3 can be made of flexible material and installed in the condensate drain pipe 5 with axial displacement, and its end 11 placed in the condensation chamber 1, provided with a float 12 (Fig. 2). In another embodiment of the condenser (Fig. 3), the end 11 of the gas exhaust pipe 3 is fastened to the distribution nozzle 10. In order to ensure a symmetrical flow around the gas exhaust pipe 3, it is provided with distributions 13, which can be performed, for example, in the form of three cylindrical stops with spring-loaded balls, in contact with the walls of the pipe 5 of the condensate (Fig. 4). The gas exhaust pipe 3 can be equipped with a filter 14, which allows only non-condensable gases to pass through. The filter 14 to prevent condensation of heating steam on its surface can be equipped with a cap 15. The steam condenser works as follows. The cooled steam enters through the Steam Inlet 4 and the distribution nozzle 10 into the condensation chamber 1, condenses, gives off heat to the heated steam passing inside the tube bundle 2. The condensed steam through the condensate outlet nozzle 5 is drained into the condensate collector 6. Non-condensable gases through the gas outlet the pipe 3 is discharged into the vapor-gas cavity 8 (; the condensate collector and removed through the pipe 9. This device allows to increase the economy by reducing heat loss with non-condensing gases and the steam removed together with them, as well as reliability due to a decrease in the number of welded grooves in the case of the condensation chamber and an increase in the operation stability due to an increase in the hydraulic resistance of the condensate discharge line.

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Claims (2)

1. Steam condenser containing a condensation chamber with a bundle of heated pipes, a gas outlet pipe and steam supply and condensate drain pipes, the last of which is connected to a condensate collector having a gray-water steam and gas-vapor cavity and equipped with a steam-gas mixture discharge pipe, characterized in that, with to improve econo ¹ michnosti and reliability, flue pipe is placed in the pipe of condensate drainage and wound up at one end in a steam-gas condensate chamber, and the other - in the condensation kA Yeru. 2. The capacitor in π. 1, characterized in that the steam supply pipe is equipped with a distribution nozzle located in the condensation chamber and made in the form of a hollow perforated cylinder 3: The condenser according to claims 1 and 2, characterized in that the gas outlet pipe is made of flexible material and installed * in the condensate discharge pipe with the possibility of axial movement, and its end, <g placed in the condensation chamber, is equipped with a float. I SU „„ 1062495