RU2489645C1 - Steam and water heater - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: steam and water heater comprises a vertical vessel with at least one drop channel for condensed steam. In the lower part of the drop channel there is a perforated header installed transversely to longitudinal sections of a tube bundle for collection and drain of non-condensed gases, as well as at least one header for collection and drain of non-condensed gases arranged longitudinally to transverse sections of a tube bundle. Headers for collection and drain of non-condensed gases are equipped with an umbrella arranged above and are made with suction holes.

EFFECT: design of a steam and water heater will result in even discharge of non-condensed gases from a zone of their maximum concentration in a lower part of a drop channel, which improves heat exchange in a tube bundle and reduces corrosion of internal elements of design.

2 cl, 4 dwg

Description

The invention relates to energy and can be used in nuclear and thermal power plants for heating feed water, basic condensate and heating water.

A steam-water heater is known comprising a vertical casing with a lowering channel for condensable steam, as well as a vertical vertical tube bundle of U-shaped pipes fixed in flat lowering tubes, and a perforated box-shaped collector for collecting and removing non-condensable gases located in the lower part of the lowering channel channel (RU 2366859, 09/10/2009).

A disadvantage of the known steam-water heater is the increased metal consumption, since it uses flat tube boards with an increased required thickness. In addition, the use of flat tube plates complicates the technology of their manufacture (drilling deep holes, rolling of pipes at great depths) and reduces the operational reliability of the heater, since during operation of the apparatus in alternating modes in thick-walled tube boards, large thermal stresses arise.

The closest technical solution of the known technical solutions (prototype) to the present invention is a steam-water heater, comprising a vertical casing with at least one lowering channel for condensable steam, in which a vertical tube bundle with transverse and longitudinal sections alternating in height is installed, as well as a perforated collector for collecting and removing non-condensable gases located in the lower part of the lowering channel transversely to the longitudinal sections of the tube bundle (RU 2315235, 20.01. 2008).

In such a heater, cylindrical tube boards are used, which have a thickness half an order of magnitude smaller than the thickness of the flat tube plates calculated for the same parameters.

In the prototype, when the bundles pass through the annulus, it completely condenses directly above the condensate level, which is installed in the lower part of the lowering channel. At this point, a zone of maximum concentration of non-condensable gases is formed - the zone of optimal location of the collector for their removal. This zone is located across the entire cross section However, in the prototype, the collector for collecting and removing non-condensable gases is located only in part of this section, only on the side of the longitudinal parts of the tube bundle. This leads to the “evaporation” of the collector and the removal of the vapor-air mixture from a limited volume of the lower part of the lowering channel with a small percentage of non-condensable gases (air) in it. In the remaining volume of the lower part of the lowering channel, an increase in the concentration of non-condensable gases in the vapor due to the difficulty of “evacuating” the air-vapor mixture from its accumulation places. An increase in the percentage of air in the vapor leads to a deterioration in the heat transfer process and the intensification of internal corrosion rikorpusnyh design elements. This disadvantage is compounded by the fact that part of the condensate droplets fall on an open collector and, together with the entrained steam, are diverted to the purge, which reduces the efficiency of the heater.

Thus, the disadvantage of the prototype is the low efficiency of the removal of non-condensable gases from the steam-water heater, which affects the heat transfer in the tube bundle and increases the corrosion of the internal structural elements. An additional disadvantage of the prototype is low profitability due to increased losses of steam and condensate in the process of removal of non-condensable gases.

The technical result of the invention is the effective removal of non-condensable gases from the steam-water heater, which improves heat transfer in the tube bundle and reduces corrosion of the internal structural elements. An additional technical result of the invention is to increase efficiency by reducing losses of steam and condensate in the process of removal of non-condensable gases.

The technical result is provided in a steam-water heater containing a vertical housing with at least one lowering channel for condensable steam, in which a vertical tube bundle with transverse and longitudinal sections alternating in height is installed, as well as a perforated collector for collecting and removing non-condensable gases, located in the lower part of the lowering channel transversely to the longitudinal sections of the tube bundle, and at least one additional llektor collection and removal of non-condensable gases, positioned longitudinally transverse sections of the tube bundle.

In addition, each collector for collecting and removing non-condensable gases is equipped with an umbrella located above it.

Installing at least one additional collector of non-condensable gases located longitudinally to the transverse sections of the tube bundle in the lower part of the lowering channel, together with a collector for collecting and removal of non-condensable gases located transversely to the longitudinal sections of the tube bundle, will lead to a uniform discharge of non-condensable gases from the entire zone of their maximum concentration in the lower part of the lowering channel, which improves heat transfer in the tube bundle and reduces the corrosion of the inner shell elements to Instructions.

Due to the fact that each collector for collection and removal of non-condensable gases is equipped with an umbrella located above it, the loss of steam and condensate during the removal of non-condensable gases is reduced. This is explained by the fact that condensate falling in drops onto the collectors cannot get into the collectors, since first these drops fall on the umbrella, which are directed by streams past the collectors and then to the level of condensate in the lower channel. Steam, which could be carried away by non-condensable gases into the collectors, also cannot get into their cavity, since it is first forced to pass through the jets of supercooled condensate draining from the umbrella, condense on these jets and then merge with condensate to the condensate level in the lower part of the lowering channel.

The invention is illustrated by drawings, where figure 1 shows a General view of a steam-water heater; figure 2 - remote element A of figure 1; figure 3 is a section bB in figure 1; figure 4 is a section bb and gg in figure 3.

Steam-water heater contains a vertical housing 1, at least one lowering channel 2 for condensable steam. Figure 3 in the example of a specific implementation of the invention shows a housing with four lowering channels 2. In each lowering channel 2 there is a vertical tube bundle with transverse sections 3 and longitudinal sections 4 alternating in height.

A perforated collector 5 for collecting and removing non-condensable gases and at least one collector 6 for collecting and removing non-condensable gases located longitudinally transverse to sections 3 of the pipe bundle are located in the lower part of the lowering channel 2 transversely to the longitudinal sections 4 of the tube bundle. Figure 3 in the example of a specific implementation of the invention shows only one collector 6. In the General case, collectors 6 may be several. The collectors 5 and 6 of the collection and removal of non-condensable gases are equipped with an umbrella 7 located above it and are made with suction holes 8.

The housing 1 in the upper part has a pipe 9 for supplying heating steam, and in the lower part - a pipe 10 for condensate discharge. In the lowering channels 2 set the level 11 of the condensate. In the center of the housing 1 there is a vertical collector with a distributing chamber 12 and a collecting chamber 13 of heated water, to which the bundle tubes are connected.

Steam-water heater operates as follows.

Heating steam through the pipe 9 is fed into the channels 2, where the steam condenses, washing the tube bundles. The condensate is drained to the condensate level 11, then it is discharged from the heater through the nozzle 10. If the lower sections of the tube bundles are located below the condensate level 11, then the condensate is cooled on the pipes of these sections of the tube bundles and is discharged from the heater through the nozzle 10 cooled.

As the steam moves downward and condensation on the tubes of the beams, the vapor concentration decreases, and the concentration of non-condensable gases, respectively, increases. The condensation of the last steam occurs directly above the condensate level 11 simultaneously over the entire cross section of the lowering channel 2, along which collectors 5 and 6 of the collection and removal of non-condensable gases are evenly distributed. Non-condensable gases are collected by collectors 5 and 6 for their subsequent removal from the heater.

Drops of condensate fall on the umbrella 7, are deflected using it so as not to fall into the openings 8 of the collectors 5 and 6. On umbrella 7, the drops of condensate are combined into trickles that are directed past the collectors 5 and 6 to the level 11 of the condensate. The condensate is supercooled on the tubes of the beams; therefore, the vapor that is entrained by non-condensable gases inside the collectors 5 and 6 passes through the streams of supercooled condensate draining from the umbrella 7, condenses on these streams and then merges with the condensate to the condensate level 11.

Heated water (feed water of the steam turbine plant regeneration system, or the main condensate of this system, or heating network water) is first supplied to the distribution chamber 12 of the vertical collector, and then to the bundle pipes. In the bundle pipes, the water is heated by condensation of the heating steam in the lowering channels 2. If the lower sections of the bundles are located below the condensate level 11 in the channel 2, then the water is also heated by cooling the condensate. Heated water enters the collecting chamber 13 of the vertical collector and then is discharged from the heater.

Claims (2)

1. A steam-water heater containing a vertical housing with at least one lowering channel for condensable steam, in which a vertical tube bundle with transverse and longitudinal sections alternating in height is installed, as well as a perforated collector for collecting and removing non-condensable gases, located in the lower part of the lowering channel transversely to the longitudinal sections of the tube bundle, characterized in that at least one additional collector for collection and removal is installed in the lower part of the lowering channel ekondensiruyuschihsya gases disposed longitudinally transverse sections of the tube bundle. 2. The heater according to claim 1, characterized in that each collector for collecting and removing non-condensable gases is equipped with an umbrella located above it.

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