RU190278U1 - AIR-COOLED CONDENSER WITH A CONDENSATE SUPERHEATER - Google Patents

Abstract

The utility model relates to equipment used in power engineering, in particular, in energy complexes on the organic Rankine cycle, oil, gas, chemical, metallurgical, refrigeration and other industries. The air-cooled condenser is designed to condense vapors and supercool condensate of various working bodies. An air-cooled condenser with a condensate subcooler, characterized in that it includes a working-tube inlet pipe welded to the inlet tube, mounted at an angle to the vertical, transverse and longitudinal partitions that form the following chambers: the output chamber of the steam bypass, the input chamber of the first steam stroke, located under the outlet to a steam bypass chamber, an inlet chamber of the second steam outlet located under the inlet chamber of the first steam stroke, a channel for removing steam from the bypass chamber to the inlet chamber of the second steam stroke and a rotary chamber of the condensate subcooler located under the inlet chamber of the second steam stroke; welded to the exit tube plate with the same slope to the vertical as the inlet tube plate, the cover of the exit chamber with welded to it: a condensate drain pipe from the exit chamber of the second steam stroke having an internal diameter of at least half the height of the exit chamber of the second steam stroke, in which the condensate drain pipe from the output chamber of the second stroke of the subcooler is welded, transverse and longitudinal partitions forming the following chambers: the output chamber of the first steam stroke, the output chamber of the second steam stroke, under the output chamber of the first steam stroke, the channel of condensate drain from the output chamber of the first steam passage into the input chamber of the first stroke of the subcooler, located under the output chamber of the second steam stroke, the output chamber of the second stroke of the subcooler, located under the entrance chamber of the supercooler; an overflow throttle assembly between the inlet chamber of the second steam stroke and the subcooler rotary chamber, consisting of a fitting with external and internal threads, welded into the opening of the inlet chamber lid so that the diameter of the fitting hole lies on the plane of the partition between the rotary chamber of the condensate subcooler and the second stroke inlet chamber a pair screwed on the cap fitting with a sealing ring screwed into the fitting with a round nut with blind holes for a removable tool that presses against the recess The camera is made of a throttle washer with a flange on the top plane, two holes located on both sides of the partition, and a groove in the bottom plane, a figured washer, mounted on the partition with a notch inserted into the throttle washer groove, and two holes along the both sides of the partition, in which the strainers are inserted; the node of the bypass throttle between the inlet chamber of the first stroke of the subcooler and the outlet chamber of the second stroke of the subcooler, consisting of a fitting with external and internal threads, welded into the opening of the cover of the output chamber so that the diameter of the opening of the fitting lies on the plane of the partition between the first and second passages of the subcooler, screwed on the fitting of the cover with the sealing ring screwed into the fitting by a round nut with blind holes for a removable tool that presses against the partition between the first and the second By the course of the subcooler, a package of a throttle washer with a board on the upper plane, two holes located on both sides of the partition, and a groove in the lower plane, a figured washer, mounted on the partition with a protrusion inserted into the groove of the throttle washer, and two holes along both sides of the partition, in which the strainers are inserted; an air-cooled bundle of heat exchanger tubes, welded to the inlet and outlet tube boards, installed with a slope to the side of condensate drain so that the width of the inlet tube plate is greater than the width of the tube bundle by the width of the steam bypass channel, taking into account the size for mounting the inlet cover and the width of the exit tube plate was larger than the width of the tube bundle by the width of the condensate drain channel, taking into account the size provided for mounting the exit cover; The overflow pipes welded to the upper parts of the tube plates are also installed with a slope towards the condensate drain. The technical result provided by the above set of features is the energy efficient, maintainable and reliable in operation design of the air condenser with two-way steam movement the steam stroke with respect to the first one, the presence of a two-way condensate subcooler, and the installation of bypass choke assemblies, allow of

Description

The utility model relates to equipment used in power engineering, in particular, in energy complexes on the organic Rankine cycle, oil, gas, chemical, metallurgical, refrigeration and other industries. The air-cooled condenser is designed to condense vapors and supercool condensate of various working fluids.

From the theory of cooling it is known that the specific cooling capacity per unit mass of the refrigerant increases if the liquid refrigerant coming out of the condenser is subjected to supercooling (Roy J. Dossat, Fundamentals of Refrigeration Engineering, Moscow, ed. Light and Food Industry, 1984 .116-118).

Supercooling of the condensate of the working fluid at the outlet of the air condenser increases the cavitation reserve of pumps in power complexes on the Rankine organic cycle, which reduces the geometric back pressure at the pump inlet and increases its reliability in variable modes, which is especially important for widely used power complexes using bodies of pentane derivatives, which have a density of about 600 kg / m ³ .

From the existing prior art known subcooler liquid refrigerant refrigeration unit, including the refrigerant circuit and the coolant circuit, characterized in that the refrigerant subcooler is made in the form of irrigated gas-liquid heat exchanger with air flow stimulator installed above the gas-liquid heat exchanger, while the circuit of the liquid refrigerant is made of finned heat exchanger, and above the gas-liquid heat exchanger; the coolant is open-circuited, which includes a sprinkler installed between the air flow driver and the orebre The refrigerant circuit, the coolant collection pan, installed under the finned refrigerant circuit, are hydraulically connected by the coolant flow rate sprinkler to the sprinkler and equipped with a coolant level sensor and regulator that is hydraulically connected to the external water supply system. Water is selected as the coolant. air and drip coolant from the fill (RU 151158U1 published 03/20/2015).

The disadvantages of this technical solution are:

The need to use a separate section of the subcooler, which complicates the hydraulic scheme of the installation;

The need for irrigation of the subcooler with an external coolant, which requires the organization of an additional circulation circuit;

Irrigation with an external coolant in the air flow will inevitably lead to ablation and pollution of the coolant, which will require periodic feeding of the circuit and replacement of the coolant.

From the current level of technology known condenser with air cooling, characterized in that it includes the upper lid of the steam chamber with a pipe supplying steam to the working fluid, welded to the upper tube plate and the dividing wall of the steam chamber; the bottom cover of the steam chamber with a purge fitting welded to the upper tube plate and the dividing wall of the steam chamber; Heat exchanging radiators welded into tube plates installed with a slope towards condensate drainage and consisting of multi-channel flat-oval tubes having two flat walls with soldered fins in the form of aluminum corrugations, connecting elements in the form of half-rings, and internal partitions, with two partitions having increased relative to to the rest of the thickness and form three strokes of the working fluid with a decrease in the flow area from the first stroke to the third; the top cover of the condensate chamber with a working body condensate drain pipe welded to the bottom tube plate and the separating wall of the condensate chamber; the bottom cover of the condensate chamber with a purge fitting welded to the bottom tube plate and the separating wall of the condensate chamber, and at the lower points of the separating wall of the condensate chamber holes for the flow of condensate working fluid (RU184379U1 published 24.10.2018).

The disadvantages of this technical solution are:

The direction of movement of steam in the vertical plane requires the use of high supporting structures, especially for capacitors with high steam consumption;

It is impossible to supercool condensate.

The task, which the claimed utility model is designed to solve, is to create an air-cooled condenser design that is simple to manufacture, which will equalize the speeds of steam in the direction of movement of the working fluid, supercooling of the condensate, the possibility of condensate drainage and effective blowing of internal cavities to remove residual working fluid during repair heat exchanger.

This problem is solved due to the fact that the air-cooled condenser with the condensate subcooler includes welded to the inlet tube plate installed at an angle to the vertical, the lid of the inlet chamber with welded to it: the pipe supplying the vapor of the working fluid, the transverse and longitudinal partitions forming the following chambers: the output the steam transfer chamber, the input chamber of the first steam stroke, located under the output steam transfer chamber, the input chamber of the second steam stroke, located under the input chamber of the first steam stroke Channel outlet steam from the bypass chamber to the inlet chamber of the second rotary stroke steam and condensate subcooler chamber, the inlet chamber located below the second pair of stroke; welded to the exit tube plate with the same slope to the vertical as the inlet tube plate, the cover of the exit chamber with welded to it: a condensate drain pipe from the exit chamber of the second steam stroke having an internal diameter of at least half the height of the exit chamber of the second steam stroke, in which the condensate drain pipe from the output chamber of the second stroke of the subcooler is welded, transverse and longitudinal partitions forming the following chambers: the output chamber of the first steam stroke, the output chamber of the second steam stroke, a channel of condensate discharge from the output chamber of the first steam flow into the input chamber of the first subcooler, located below the output chamber of the second vapor stroke, and the output chamber of the second stroke of the subcooler, located under the subcooler input chamber; an overflow throttle assembly between the inlet chamber of the second steam stroke and the subcooler rotary chamber, consisting of a fitting with external and internal threads, welded into the opening of the inlet chamber lid so that the diameter of the fitting hole lies on the plane of the partition between the rotary chamber of the condensate subcooler and the inlet chamber of the second stroke a pair screwed onto the cap fitting with an o-ring screwed into the fitting with a round nut with blind holes under the removable tool that presses to the The camera of the PTZ camera is a package of a throttle washer with a board on the upper plane, two holes located on both sides of the partition, and a groove in the lower plane, a figured washer, fitted with a groove on the partition that has a protrusion inserted into the groove of the throttle washer, and two holes along both sides of the partition, in which the strainers are inserted; the node of the bypass throttle between the inlet chamber of the first stroke of the subcooler and the outlet chamber of the second stroke of the subcooler, consisting of a fitting with external and internal threads, welded into the opening of the cover of the output chamber so that the diameter of the opening of the fitting lies on the plane of the partition between the first and second passages of the subcooler, screwed on the fitting of the cover with the sealing ring screwed into the fitting by a round nut with blind holes for a removable tool that presses against the partition between the first and with the second stroke of the subcooler, a package of a throttle washer with a board on the upper plane, two holes located on either side of the partition, and a groove in the lower plane, a figured washer, fitted with a groove on the partition that has a protrusion inserted into the groove of the throttle washer, and two holes on both sides of the partition, in which the mesh filters are inserted; an air-cooled bundle of heat exchanger tubes, welded to the inlet and outlet tube boards, installed with a slope to the side of condensate drain so that the width of the inlet tube plate is greater than the width of the tube bundle by the width of the steam bypass channel, taking into account the size for mounting the inlet cover and the width of the exit tube plate was larger than the width of the tube bundle by the width of the condensate drain channel, taking into account the size provided for mounting the exit cover; the overflow pipes welded to the upper parts of the tube plates are also installed with a slope towards the condensate drain.

Entrance and output pipe boards can be installed vertically.

The lid of the inlet chamber and the inlet tube plate may have flanges and are connected by threaded connections.

The lid of the exit chamber and the outlet tube plate may have flanges and are connected by threaded connections.

Heat exchange tubes can be connected to the inlet and outlet tube plates by flaring.

Heat exchange tubes can be connected to the inlet and outlet tube plates by flaring, followed by welding.

The outlet of non-condensable gases from the outlet chamber of the second steam stroke can be welded into the lid of the exit chamber.

The technical result provided by the above set of features is an energy-efficient, maintainable and reliable design of an air-cooled condenser with two-way steam movement, which is provided by reducing the flow cross section of the second steam stroke with respect to the first, the presence of a two-way condensate subcooler and installing overflow choke assemblies, allowing drain the internal cavity due to the flow of fluid.

The essence of the utility model is illustrated by drawings (Figure 1, Figure 2, Figure 3), which depicts an air-cooled condenser.

Air-cooled condenser with condensate subcooler includes welded to the inlet tube plate 1 installed at an angle to the vertical, the lid of the inlet chamber 2 with welded to it: the steam supply pipe of the working body 3, transverse and longitudinal partitions forming the following chambers: the output chamber of the steam bypass 4, the input chamber of the first steam stroke 5, located under the output steam transfer chamber 4, the inlet chamber of the second steam stroke 6, located under the entrance chamber of the first steam stroke 5, the steam discharge channel 7 from the chamber n repuska 4 into the inlet chamber of the second stroke steam chamber 6 and a rotatable subcooler condensate 8, located under the inlet chamber 6 of the second pair of stroke; welded to the output tube 9, having the same inclination to the vertical as the inlet tube 1, the cover of the exit chamber 10 with welded to it: a condensate discharge pipe 11 from the output chamber of the second steam stroke 12 having an internal diameter of at least half the height of the output the camera of the second steam stroke 12, into which the condensate drain pipe 13 from the output chamber of the second stroke of the subcooler 14 is welded, with transverse and longitudinal partitions forming the following chambers: the output chamber of the first steam stroke 15, the output chamber of the second stroke a pair of 12 located under the output chamber of the first steam stroke 15, a channel for removing condensate 16 from the output chamber of the first steam stroke 15 into the input chamber of the first stroke of the subcooler 17, located under the output chamber of the second steam stroke 12, the output chamber of the second stroke of the subcooler 14 located under the inlet subcooler chamber 17; node bypass throttle 18 between the inlet chamber of the second steam stroke 6 and the turning chamber of the subcooler 8, consisting of a fitting 19 with external and internal threads, welded into the opening of the cover of the input chamber 2 so that the opening diameter of the fitting 19 lies on the plane of the partition between the turning chamber of the subcooler condensate 8 and the inlet chamber of the second steam stroke 6 screwed on the fitting 19 of the cover 20 with the sealing ring 21 screwed into the fitting 19 of the round nut 22 with blind holes for the removable tool, which presses against the septum package of throttle washer 23 with a board on the upper plane, two holes located on both sides of the partition, and a groove in the lower plane, figured washer 24, mounted on the partition with a groove having a protrusion inserted into the groove of the throttle washer 23, and two holes on either side of the partition, in which the mesh filters 25 are inserted; node bypass throttle 26 between the inlet chamber of the first stroke of the subcooler 17 and the outlet chamber of the second stroke of the subcooler 14, consisting of fitting 19 with external and internal threads, welded into the hole of the cover of the output chamber 10 so that the diameter of the opening of fitting 19 lies on the plane of the partition between the inlet the camera of the first stroke of the subcooler 17 and the output chamber of the second stroke of the subcooler 14, screwed on the fitting 19 of the cover 20 with a sealing ring 21 screwed into the fitting of the round nut 22 with a blind hole A removable tool that presses the package from the throttle washer 23 with the board on the top plane, two holes located on both sides of the partition to the partition between the first and second subcooler, and a groove in the bottom plane of the figured washer 24 fitted with a slot on the partition having a protrusion inserted into the groove of the throttle washer 22, and two holes on either side of the partition, in which the mesh filters 25 are inserted; installed with a slope in the direction of condensate discharge, cooled from the outside by air, a bundle of heat exchange tubes 27, welded to the inlet 1 and outlet 9 of the tube plates so that the width of the inlet tube plate 1 is larger than the width of the tube bundle 27 by the width of the channel; taking into account the provision of a size for mounting the lid of the inlet chamber 2, and the width of the output tube plate 9 was greater than the width of the tube bundle 27 for the width of the condensate drain channel 16 with regard to ensuring the size for mounting the lid of the output chamber 10; welded to the upper parts of the tube plates bypass pipes 28, also installed with a slope towards the condensate drain.

The air-cooled condenser works as follows.

Steam of the working fluid through the pipe 3 is fed into the inlet chamber of the first stroke of steam 5, then into a bundle of heat exchange tubes 26 fixed in the inlet tube plate 1. In heat exchange tubes of the first turn, cooled from the outside with atmospheric air, up to 80% of the mass flow rate of steam is condensed. The condensate of the working fluid flows through the inclined pipes into the output chamber of the first steam stroke 15, then through the condensate discharge channel 16 into the inlet chamber of the first stroke of the subcooler 17. The height of the output chamber of the second steam stroke 12 and the slope of the heat exchange tubes 26 are selected so that the hydrostatic pressure of the liquid column Channel 16 was provided with a condensate duct into the turning chamber of the condensate subcooler 8 and further into the output chamber of the second stroke of the subcooler 14. When moving in the heat exchange tubes, the condensate is cooled with air, washing yuschim pipe from the outside. A small flow of condensate constantly flows from the input chamber of the first stroke of the subcooler 17 to the output chamber of the second stroke of the subcooler 14 through the node of the bypass choke 18, and also from the turntable of the subcooler of the condensate 8 into the input chamber of the second steam stroke 6 through the node of the bypass throttle 25. Hole diameters in the throttle washers 22 are selected so that the total consumption through the nodes of the bypass chokes 18 and 25 is not more than 1% of the flow of condensate through the subcooler.

Non-condensed vapor from the outlet chamber of the first steam passage 15 through the overflow pipes 28 enters the steam outlet bypass chamber 4 and further along the steam discharge channel 7 into the inlet chamber of the second steam stroke 6. From the chamber 6, the steam moves to the heat exchange tubes cooled outside by air. The area of the flow section of the tube bundle of the second steam stroke is reduced relative to the corresponding area of the first stroke, which provides the input flow velocity necessary for efficient heat exchange.

Condensate from the second stroke flows through the inclined pipes into the output chamber of the second steam stroke 12 and further into the condensate drain pipe 11. Due to the fact that the diameter of the pipe 11, a large enough liquid in it flows along the walls without completely blocking the channel section. At the point of connection to the pipe 11 of the condensate drain pipe 13 from the output chamber of the second stroke of the subcooler 14, under the action of a pressure difference, the flows are broken and the subsequent mixing of the condensate from the second stroke and the subcooler occurs.

When stopping the supply of steam to the condenser, the residual liquid is removed from the heat exchanger by gravity due to the slope of the heat exchange tubes 27 and the overflow tubes 28, while the inlet chamber of the first stroke of the subcooler 17 is drained into the outlet chamber of the second stroke of the supercooler 14 through the bypass throttle assembly 25.

When starting the capacitor, the filling of the first subcooler stroke occurs with the steam displacing through the bypass choke assembly 18.

When performing routine maintenance, the bypass choke assemblies 18 and 25 can be inspected, for which it is enough to unscrew the cover 20, the nut 22 sequentially on each node, then remove the throttle washer 23 and the figure washer 24 with filters 25. After cleaning the parts and washing the filters 25, the nodes are assembled into reverse order.

Claims (7)

1. Air-cooled condenser with condensate subcooler, characterized in that it includes welded to the inlet tube plate installed at an angle to the vertical, the lid of the inlet chamber with the working fluid vapor supply pipe welded to it, the transverse and longitudinal partitions forming the following chambers: output chamber steam bypass, inlet chamber of the first steam stroke, located under the outlet of the steam bypass chamber, inlet chamber of the second steam stroke, located under the inlet chamber of the first steam stroke, channel removal of steam from the bypass chamber into the inlet chamber of the second steam stroke and the turning chamber of the condensate subcooler located under the inlet chamber of the second steam stroke; welded to the exit tube plate with the same slope to the vertical as the inlet tube plate, the cover of the exit chamber with the condensate outlet pipe welded to it from the exit chamber of the second steam stroke having an internal diameter of at least half the height of the exit chamber of the second steam stroke, which is welded pipe of condensate drain from the output chamber of the second stroke of the subcooler, transverse and longitudinal partitions forming the following chambers: the output chamber of the first steam stroke, the output chamber of the second steam stroke, located ennuyu outlet chamber under the first stroke steam condensate discharge duct of the first stroke of the discharge chamber in the steam inlet chamber subcooler first move beneath the outlet chamber of the second stroke vapor outlet chamber of the second stroke subcooler disposed beneath the inlet chamber subcooler; an overflow throttle assembly between the inlet chamber of the second steam stroke and the subcooler rotary chamber, consisting of a fitting with external and internal threads, welded into the opening of the inlet chamber lid so that the diameter of the fitting hole lies on the plane of the partition between the rotary chamber of the condensate subcooler and the inlet chamber of the second stroke a pair screwed onto the cap fitting with an o-ring screwed into the fitting with a round nut with blind holes under the removable tool that presses to the The camera of the PTZ camera is a package of a throttle washer with a board on the upper plane, two holes located on both sides of the partition, and a groove in the lower plane, a figured washer, fitted with a groove on the partition that has a protrusion inserted into the groove of the throttle washer, and two holes along both sides of the partition, in which the strainers are inserted; the node of the bypass throttle between the inlet chamber of the first stroke of the subcooler and the outlet chamber of the second stroke of the subcooler, consisting of a fitting with external and internal threads, welded into the opening of the cover of the output chamber so that the diameter of the opening of the fitting lies on the plane of the partition between the first and second passages of the subcooler, screwed on the fitting of the cover with the sealing ring screwed into the fitting by a round nut with blind holes for a removable tool that presses against the partition between the first and with the second stroke of the subcooler, a package of a throttle washer with a board on the upper plane, two holes located on either side of the partition, and a groove in the lower plane, a figured washer, fitted with a groove on the partition that has a protrusion inserted into the groove of the throttle washer, and two holes on both sides of the partition, in which the mesh filters are inserted; an air-cooled bundle of heat exchanger tubes, welded to the inlet and outlet tubular boards, so that the width of the inlet tubular plate is greater than the width of the bundle by the width of the steam bypass channel, taking into account the size for mounting the inlet cover, and the width of the exit tube plate was larger than the width of the tube bundle by the width of the condensate drain channel, taking into account the size provided for mounting the exit cover; the overflow pipes welded to the upper parts of the tube plates are also installed with a slope towards the condensate drain. 2. Air-cooled condenser with condensate subcooler according to claim 1, characterized in that the inlet and outlet tube plates are installed vertically. 3. Air-cooled condenser with condensate subcooler according to claim 1, characterized in that the lid of the inlet chamber and the inlet tube plate have flanges and are connected by threaded connections. 4. Air-cooled condenser with condensate subcooler according to claim 1, characterized in that the cover of the exit chamber and the outlet tube plate have flanges and are connected by threaded connections. 5. Air-cooled condenser with condensate subcooler according to claim 1, characterized in that the heat exchange tubes are connected to the inlet and outlet tube plates by means of flaring. 6. Air-cooled condenser with condensate subcooler according to claim 1, characterized in that the heat exchange tubes are connected to the inlet and outlet tube plates by means of flaring, followed by welding. 7. Air-cooled condenser with a condensate subcooler according to claim 1, characterized in that a fitting for removing non-condensable gases from the output chamber of the second steam stroke is welded into the cover of the exit chamber.

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