EP0153685A1 - Heat-transfer surfaces cleaning device for the intermediate body of a regenerative heat-exchanger - Google Patents

Abstract

The device has a series of nozzles that are essentially tangentially oriented and radially displaceable in front of the end face of the storage mass (1) inside the heat exchanger, which nozzles let the cleaning agent supplied to them from a detergent source exit the storage mass (1). The nozzles are provided on at least two nozzle heads (19; 17) which are arranged at a distance from one another and essentially radially over one half of the end face of the storage mass (1) and which are sealed and guided into the interior of the heat exchanger and through a Drive can be moved back and forth radially above the storage mass (1). The pipe (11; 13) is connected to at least one fixed external media line that supplies the cleaning agent via movable connecting means. The radially inner nozzle head (19) - in adaptation to the lower peripheral speed of the heat exchanger in this area - has a smaller number of nozzles than the nozzle head (17) that follows radially outward.

Description

The invention relates to a device for cleaning the heat-exchanging surfaces of the storage masses of circulating regenerative heat exchangers with at least one row of juxtaposed, essentially tangentially aligned and radially displaceable nozzles arranged in front of the end face of the storage mass in the interior of the heat exchanger, which nozzles direct the cleaning agent supplied to them by a detergent source lead to the storage mass.

In order to remove the adhering deposits that accumulate on the heat-exchanging surfaces of storage masses in regenerative heat exchangers during operation and heavily soiled and encrusted heating surfaces, even through-channels of the storage masses that are completely closed by soiling, in their state built into the storage mass carrier outside of operation - that is, during the Downtimes - to clean, a device is known in which, parallel to the plane of the heat-exchanging surfaces, high-pressure nozzles are arranged in a row, which are directed with cylindrical or flat jet jets relative to the Level are shifted ustauschflächen of substantially tangentially oriented _A (DE-PS 25 14 173). The high-pressure cleaning nozzles emit sharp, punctiform impinging cleaning jets which, in their entirety, cause the heating surfaces to be impacted and flexing, which means that firmly adhering, poorly water-soluble incrustations and deposits are blasted off and crushed. For the reliable removal of the solid contaminants dissolved or comminuted by the high-pressure nozzles and partially insoluble in water, the high-pressure nozzles designed for higher liquid throughput were connected downstream and preferably likewise arranged in a plane parallel to the high-pressure nozzles. The nozzles are arranged on a trolley, which is moved radially above the end face of the storage mass during the cleaning process. However, the intensive cleaning process requires cleaning to be carried out with the heat exchanger out of operation.

In a further development of the previously known device, injector nozzles for a gas under low to medium pressure or gaseous or vaporous cleaning agent in the direction of the emerging jet of nozzles have also been proposed in such a way that they suck the surrounding heat-exchanging gaseous medium into the tube and with the cleaning agent, aligned jets with a speed profile that is balanced over the injector cross-section feed the through-channels between the heat-exchanging surfaces (DE-PS 26 15 433). Superheated steam with a pressure of at least 4 atm and one is preferably used as the blowing medium Temperature of approx. 300 ° C is provided. In a further development of this embodiment, a number of high-pressure nozzles have already been added to the injector nozzles, or these have been arranged within the injector pipes in the area of their outlet. Depending on the type of soiling and the thickness of the topping, such a device can be used at different times to use the solution and blowing process on the one hand as regular daily cleaning to remove light soiling and on the other hand the high-pressure cleaning process alone or combined with the injector nozzles as cleaning at longer intervals to remove heavy soiling . When the high-pressure and injector nozzles are used at the same time, the water jets emitted by the high-pressure nozzles blow the deposits off the heating surfaces and shred them, while the gaseous or vaporous detergent mixture supplied by the injector nozzles rinses or blows out the blasted, shredded deposits. The device offers the advantage of both operational cleaning and flushing of the heating surfaces, including the air flowing through the heat exchanger or the flue gas as flushing agent, as a result of the injector action of the flushing medium supplied to the injector nozzles in the form of superheated steam or compressed air.

On the other hand, so-called soot blowers are known for cleaning boiler heating surfaces, in which a pair of nozzles is arranged on a blowing lance, with which a cooling water stream is first applied to the incrustations through the one nozzle and cracks are formed in these incrustations through embrittlement and contraction, whereupon a pulsed high-speed current is sprayed through the other nozzle, which drives water into the cracks formed in the chaff and causes the chaff to flake off through the explosive force of the water evaporating in the cracks (DE-OS 32 40 721; DE-OS 32 40 737 ). One nozzle of the pair of nozzles is connected to a coaxial outer tube and the other to an inner tube and the blowing lance is supported on a mechanically moved slide. The nozzles are directed backwards in the direction of the boiler wall, and hose lines are interposed between the room-side fixed connections at the ends of the media lines supplying the water as cleaning medium and the connections provided at the outer end of the moving blowing lance. The connection ends of the hose lines are moved towards and away from one another during the movement of the sootblower, so that the amount of their sag changes during their advance inside the boiler from a maximum to a minimum. Up to the permissible minimum radius of the hose line used, a free choice of the starting position for the motion sequence is thus possible, while the end position of the connections moved with the slide only depends on the length of the hose line used.

In contrast, the invention has for its object to provide a device for the reliable cleaning of the storage masses of a circulating regenerative heat exchanger, with which using small amounts of high-pressure cleaning or washing-up liquid during of the boiler operation, soiling can be removed, the basic possibility of designing the device being such that it can optionally be used for flushing in the medium and low pressure range during operation of the heat exchanger and for flushing in the high and low pressure range when the heat exchanger is not in operation can be.

Starting from a device of the type mentioned in the introduction, this object is achieved according to the invention in that the nozzles are provided on at least two nozzle heads arranged at a distance from one another and essentially radially extending over one half of the end face of the storage mass, such that they are sealed in the interior of the heat exchanger guided pipe is radially displaceable back and forth and can be moved back and forth by a drive above the storage mass, the pipe being connected via movable connecting means to at least one fixed medium supplying the cleaning agent, and in that the radially inner nozzle head has a smaller number of nozzles as the next radially outward following nozzle head. Due to the different number of nozzles on the nozzle heads, it is taken into account that a comparatively larger area share of the storage mass is assigned to the nozzle head or nozzles located radially further outward. In order to achieve an evenly intensive cleaning and flushing out of the storage mass, the accounted for by increasing the number of nozzles and thus correspondingly increasing the amount of detergent or dishwashing agent. By arranging more than two nozzle heads at uniform radial distances on the tube and correspondingly adapting the number of nozzles on each nozzle head, not only can the cleaning effect in the areas of the storage mass assigned to the nozzle heads be further equalized, but the longitudinal stroke of the tube is also shortened accordingly, because with an increasing number of each nozzle head, a correspondingly narrower ring area of the storage mass is cleaned.

In a preferred development of the invention, the tube carrying the nozzle heads is designed as a double tube which, at least in the area of the sealed introduction into the _{interior of} the heat exchanger, has an inner tube and an outer tube and tube which essentially coaxially surround the inner tube, the outer tube / the inner tube being attached separate external media lines are connected, in which cleaning agents of different or the same type are supplied under different or the same pressure, and the outer and inner tubes are connected on the nozzle head side to separately adapted nozzles. The device thus opens up the possibility of acting separately or together with smaller amounts of liquid cleaning agent under high pressure on the soiled coverings and / or of flushing constantly during operation with a gaseous or vaporous cleaning agent.

In an advantageous further development of the invention, the nozzle heads each have a distributor box, connected to the outer tube and substantially at right angles to the tube axis of the storage mass end face, for the cleaning agent of lower pressure and / or a larger amount supplied in the outer tube, which manifold side through a nozzle plate carrying the assigned nozzles is completed.

The nozzles of the nozzle heads assigned to the cleaning medium supplied via the inner tube, on the other hand, are expediently connected to the inner tube via a branch line which is routed outside the wall of the outer tube and the advantage box, whereby the nozzle plate of the distributor box can be supplemented by a further nozzle plate, in which one with the Branch pipe-connected cavity for distributing the cleaning agent of higher pressure and / or a smaller amount is formed on the nozzle (s) arranged on the storage mass side on the further nozzle plate.

The movable connecting means are expediently formed by flexible connecting lines, that is to say pressure-resistant hoses, connected to the double pipe carrying the nozzle heads on the one hand and to the room-side fixed connections of the media lines, which are guided and / or held by supporting means in such a way that their outer end sections run essentially parallel and straight , during which the outer Inner section connecting end sections is guided on an approximately semicircular arc.

The support means can overlap or overlap one of the two outer end sections of the flexible connecting lines, each of which is approximately parallel, e.g. in the form of a profiled support rail, which guide the sections of the connecting lines, for example, in a vertical plane.

Particularly gentle on the flexible connecting lines carrying the cleaning agent is an embodiment in which in parallel planes on both sides next to the connecting lines are provided at their ends each chain-like pivotally connected tab elements, of which tab elements lying on opposite sides of the connecting lines are each connected in pairs by connecting webs, which under or overlap the flexible connecting lines at least in the area of their outer radii of curvature.

The connecting webs connecting the tab elements are expediently designed in such a way that they secure the flexible connecting lines against lateral displacements, which is possible, for example, by bulging or bulging the connecting webs to match the line cross-sections.

A simplification of the connection of the flexible connecting lines to the double pipe and at the same time a reliable support and guidance of the end of the double pipe located outside the heat exchanger can be achieved in that a box-like collector for the cleaning agent or detergents is switched on between the connecting lines and the outer end of the double pipe is, for example, sliding on runners or on rollers in the longitudinal direction of the double tube to slide back and forth on a rail and means via power transmission means, for example a chain, spindle or rack, is connected to a drive motor. In the case of a chain drive, the motor is permanently attached, while in the case of a rack and pinion drive, the motor is moved along with the collector and, for this purpose, its electrical supply lines are expediently included in the routing and support of the flexible connecting lines. Switching the direction of movement in the end positions of the double tube feed can be done using conventional limit switches or the like. respectively.

Particularly advantageous for the compensation of thermal loads is a cantilevered outwardly projecting support, supported on the jacket of the heat exchanger housing, for holding the outer end of the pipe, its drive and the movable connecting means, i.e. the flexible connecting lines.

In the case of regenerative heat exchangers with a larger line and thus a larger diameter of the storage masses, a radially extending support is expediently also arranged in the interior of the regenerative heat exchanger at a distance from the end face of the storage mass, on which the inner portion of the tube carrying the nozzle heads is guided and held in a rolling or sliding manner is. In order to compensate for thermal expansions, at least one end of the carrier is expediently held in the housing of the regenerative heat exchanger so as to be longitudinally displaceable.

• Fig. 1 einen Vertikalschnitt durch einen Teilbereich eines Regenerativ-Wärmetauschers mit feststehendem Gehäuse und umlaufender Speichermasse an dessen Gehäuse die erfindungsgemäße Reinigungsvorrichtung angebaut ist;
• Fig. 2 eine teilweise aufgebrochene Seitenansicht des außerhalb des Wärmetauschergehäuses befindlichen Teils der Reinigungsvorrichtung in vergrößertem Maßstab;
• Fig. 3 eine in Richtung der Längsmittelachse des Doppelrohrs gesehene Ansicht eines Düsenkopfs der Reinigungsvorrichtung; und
• Fig. 4 einen der Fig. 1 ähnlichen Vertikalschnitt durch einen Teilbereich eines mit einer erfindungsgemäßen Reinigungsvorrichtung ausgerüsteten Regenerativ-Wärmetauschers mit feststehender Speichermasse und umlaufenden Drehhauben.

The invention is explained in more detail in the following description of two exemplary embodiments in conjunction with the drawing, which shows:

• Figure 1 is a vertical section through a portion of a regenerative heat exchanger with a fixed housing and circumferential storage mass on the housing, the cleaning device according to the invention is attached.
• Figure 2 is a partially broken side view of the part of the cleaning device located outside the heat exchanger housing on an enlarged scale.
• 3 shows a view of a nozzle head of the cleaning device, seen in the direction of the longitudinal central axis of the double pipe; and
• Fig. 4 is a vertical section similar to Fig. 1 through a portion of a regenerative heat exchanger equipped with a cleaning device according to the invention with a fixed storage mass and rotating hoods.

According to the vertical section shown in FIG. 1, the rotating storage mass 1 of the revolving regenerative heat exchanger is enclosed by a housing 3, a partial area of which is shown with an inlet or outlet nozzle 5 for one of the heat-exchanging gaseous media. A carrier 7 projects radially into this housing connection piece 5, starting from the housing jacket, in the direction of the axis of rotation of the revolving regenerative heat exchanger. The carrier 7 is slidably supported on a central guide of the housing 9. It is used to hold and guide a double tube, sealed from the outside, through the housing jacket of the preheater, with an outer tube 11 and an inner tube 13, which is guided in a sliding or rolling manner on support arm 15 on support arm 7. The double pipe has two nozzle heads 17, 19. The jacket-side nozzle head 17 is shown as a distributor box for a plurality of flushing nozzles and the nozzle head 19 provided near the axis of rotation of the storage mass as a distributor for a pair of nozzles, ie the nozzle head list is provided with a larger number of nozzles than the nozzle head 19. There is another on the housing jacket attached to the outside projecting carrier 31, which in turn carries the drive of the cleaning device, the outer guides of the double tube 11, 13 and flexible connecting lines of the cleaning device with the cleaning agent supplying media lines 49, 51 including a housing enclosing these flexible connecting lines. The connecting lines each have rectilinear end sections 20, 24 and one the end sections arcuate connecting middle section 22.

FIG. 2 shows the part of the cleaning device arranged outside the heat exchanger housing on a larger scale than the illustration according to FIG. 1. A drive motor 33 is screwed to the carrier 31 and drives a chain 35 which is deflected via a chain wheel held in the bearing 37. By means of the chain 35, a box-shaped collector 39 for the lines supplying the cleaning agent as the carrier of the double tube is moved back and forth on a rail 41 between two end positions, which are arranged by the contact 43a arranged near the deflecting chain wheel 37 and the one at the other end of the Stroke provided contact 43b can be determined. The collector 39 is provided with rollers 4.5 which run on the rail 41. Via a coupling 47 in the axis of the inner tube 13, the associated flexible connecting line section 24 is connected directly to the inner tube 13, which is passed through the collector 39 for this purpose. The other flexible line section 24 connected via the collector to the annular space between the outer and the inner tube lies behind the line section connected to the inner tube and is connected via a coupling 53 to the collector housing and thus to its interior. The cleaning agent flows to the inlet side via the interior of the collector 39 opposite outlet side, from which the outer tube 11 coaxially encloses the inner tube 13.

The above-mentioned housing enclosing the flexible connecting lines has supports 50, 52 formed on the upper and lower sides of profile rails, which overlap or overlap the end sections 20, 24 of the connecting lines. In addition, the connecting lines are guided inside the housing on both sides by tab elements 100 which are pivotally connected to one another at their ends and connected in pairs and each connected in pairs by connecting webs (not shown).

FIG. 3 shows the nozzle head 17 seen in the axial direction of the double pipe 11, 13 on a larger scale than in FIG. 1. The outer tube 11 of the double tube opens into a distributor box 60 on the front side of the nozzle head in the illustration, while a section of the outer tube which supplies the detergent to further nozzles is connected to the rear side of the distributor box in the illustration. The outer tube 11 has a removable cover 62 which allows access to its interior. The distribution box 60 is divided into an upper and a lower part via the flanges 64, 66. The lower part 61 widens conically in the direction of a lower nozzle plate 68. In the case shown, this lower nozzle plate 68 carries four nozzles 70, 72, 74, 76. From the jacket of the outer tube 11 leads in the area of the removable cover 62 in front of the distribution box one connected to the inner tube 13 Branch line 80 leads out, which leads the cleaning agent supplied via the inner tube to a further nozzle plate 82 which supplements the nozzle plate 68 and carries three nozzles 84, 86 and 88. In order to distribute it evenly between the individual nozzles, the interior of the nozzle plate 82 is provided with a cavity, via which the branch line 80 is connected to the nozzles. In the drawing, the nozzle heads are shown with the nozzles pointing downward in association with a storage mass arranged below the cleaning device. Alternatively, an inverted arrangement can also be realized, in which the part of the double pipe, including the nozzle heads, provided inside the housing of the circulating regenerative heat exchanger, instead of hanging on a carrier, is also slidably guided thereon with upwardly directed nozzle heads and nozzles provided thereon perform the cleaning of the storage mass from the lower front.

FIG. 4 shows the cleaning device according to the invention for heat-exchanging surfaces in connection with a design of the revolving regenerative heat exchanger in which the storage mass 201 rests in kinematic reversal of the relationships to the heat exchanger shown in FIG. 1, while air duct stub 202 in front of its opposite end faces circulate one of the heat-exchanging media within the other stationary duct connection 205 connected to the housing. The outside of the storage mass 201 in this Case centrally angeordnste, the cleaning device supporting carrier 31 is different from Fig. 1, not enclosing on a memory ground shell 3, but one within the N _a benrohrs 204 of the storage mass 201 supporting storage mass carrier encircling the rotating hoods 202 in front of the opposite end faces of the storage mass together connecting hub tube 206 supported. The support 7 for supporting the pipes 11, 13 supplying the blowing and rinsing agent, including the associated nozzle heads 17, 19, is slidably mounted on the outer wall of the rotary hood 202 via a peripheral guide 9. For the rest, it is sufficient to refer to the explanation of FIGS. 1 and 2 in order to avoid repetitions, especially since the corresponding parts of the cleaning device according to the invention are given the same reference numerals in FIGS. 1, 2 and 4.

It can be seen that within the scope of the inventive concept, modifications and developments of the exemplary embodiments described can be implemented, which relate both to the number and arrangement of the nozzle heads used and to the design and spatial arrangement of the drive of the double pipe and the spatial position of the flexible connecting lines.

It is essential that the device according to the invention can be used to clean the storage mass both during operation and during downtimes, with the choice of different cleaning means or flushing media with different pressure levels can be adapted to the special soiling. The device according to the invention is of particular importance for the operational cleaning of circulating regenerative heat exchangers which are used for reheating the clean gases after the raw gas scrubbing. In this case, the system is blown with low pressure and also flushed with high pressure water during operation.

Claims (13)

1.Device for cleaning the heat-exchanging surfaces of the storage masses of circulating regenerative heat exchangers with at least one row of juxtaposed, essentially tangentially aligned and radially displaceable nozzles arranged in front of the end face of the storage mass in the interior of the heat exchanger, which direct the cleaning agent supplied to them by a cleaning agent source Lead storage mass, characterized in that the nozzles (70, 72, 74, 76; 84, 86, 88) on at least two spaced apart tubes (11; substantially radially extending over one half of the end face of the storage mass (1); 13) arranged nozzle heads (19; 17) are provided such that the tube (11; 13) guided into the interior of the heat exchanger (1, 3, 5) is guided so that it can be moved radially back and forth over the storage mass (1) and by a drive Can be moved back and forth over the storage mass (1), the pipe (11; 13) being connected to whom via movable connecting means at least one fixed media line (49; 51) is connected, and that the radially inner nozzle head (19) has a smaller number of nozzles than the nozzle head (17) that follows radially outward. 2. Device according to claim 1, characterized in that the nozzle heads (19; 17) carrying tube is designed as a double tube (11; 13), which at least in the area of the sealed introduction into the interior of the heat exchanger, an inner tube (13) and a Inner tube essentially coaxially surrounding outer tube (11) that the outer tube (11) and the inner tube (13) are connected to separate outer media lines (49; 51), in which cleaning agents of different or the same type are supplied under different or the same pressure, and that the outer and inner tubes on the nozzle head side are each connected to separately adapted nozzles (70 ÷ 76 and 84 ÷ 88). 3. Apparatus according to claim 2, characterized in that the nozzle heads (19; 17) each have a connected to the outer tube (11), substantially at right angles to the tube axis to the storage mass end face emerging distribution box (60) for the in the outer tube (11) supplied Have cleaning agents of lower pressure and / or a larger amount, which is closed on the storage mass side by a nozzle plate (68) carrying the assigned nozzles (70 ÷ 76). 4. Apparatus according to claim 2 or 3, characterized in that the cleaning medium supplied via the inner tube (13) assigned nozzles (84 ÷ 88) of the nozzle heads (19; 17) each have an outside the wall of the outer tube (11) and the distribution box (60) guided branch line (80) are connected to the inner tube (13). 5. Apparatus according to claim 3 and 4, characterized in that the nozzle plate (68) of the distribution box (60) is supplemented by a further nozzle plate (82) in which a cavity connected to the branch line (80) for distributing the cleaning agent higher pressure and / or a smaller amount is formed on the nozzle (s) (84 7 88) arranged on the storage mass side on the further nozzle plate (82). 6. Device according to one of claims 2 to 5, characterized in that the movable connecting means on the one hand and to the nozzle heads (19; 17) carrying double tube (11; 13) on the one hand and room-side fixed connections of the media lines (49; 51) on the other hand connected flexible Connection lines are designed which are guided and / or held by support means so that their outer end sections (20, 24) run substantially parallel and straight, while the inner middle section (22) connecting the outer end sections is guided on an approximately semicircular arc. 7. Vorrichzuag according to claim 6, characterized in that the support means one each one of the approximately rectilinear parallel parallel outer end portions (20, 24) of the flexible connecting lines (2 ₀ , 22, 24) under or overlapping support (50; 52 ) exhibit. 8. Apparatus according to claim 6 or 7, characterized in that in parallel planes on both sides next to the flexible connecting lines at their ends each chain-like interconnected tab elements (100) are provided, of which on opposite sides of the connecting lines tab elements (100) each in pairs are joined together by connecting webs which under or overlap the flexible connecting lines at least in the region of their outer radii of curvature. 9. The device according to claim 8, characterized in that the tab elements (100) connecting connecting webs are designed such that they secure the flexible connecting lines against lateral displacements. 10. Device according to one of claims 2 to 9, characterized in that between the movable connecting means and the outer end of the double tube (11; 13) a box-like collector (39) for the or the cleaning agent is switched on, the sliding or rolling in Longitudinal direction of the double tube (11; 13) can be moved back and forth on a rail (41) is guided and connected to a drive motor (33) via power transmission means (chain 35). 11. The device according to one of claims 1 to 10, characterized by a cantilevered outwardly projecting, supported on the jacket of the heat exchanger housing (3) support (31) for holding the outer end of the tube (11, 13), the drive (33, 35, 37) and the movable connecting means. 12. The device according to one of claims 1 to 11, characterized in that in the interior of the regenerative heat exchanger at a distance from the end face of the storage mass (1) a radially extending carrier (7) is arranged, on which the interior of the housing of the nozzle heads ( 17, 19) carrying tube (11, 13) is guided and held in a rolling or sliding manner. 13. The apparatus according to claim 12, characterized in that at least one end of the carrier (7) is held longitudinally displaceably in the housing (3) of the regenerative heat exchanger.

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