The present invention relates generally to recovery boilers and furnaces which are used to process waste liquor, and more particularly relates to the liquor gun used to spray the waste liquor into the recovery furnace.
Paper pulp is manufactured by treating wood in a boiling liquid at high temperatures and pressures. After the boiling process, the remaining liquid contains a number of chemicals and retains some of the wood substance, forming a “weak liquor”. In a typical mill, the water is removed from the weak liquor and a “black liquor” is obtained, and is then supplied as fuel to the recovery boiler. The recovery boiler provides a reduced atmosphere at 1000° C. to burn the remaining wood substance and release energy that is conveyed away in the form of high-pressure steam. A regeneration of the chemicals contained in the black liquor is also performed in the recovery boiler.
The black liquor is normally supplied to the recovery furnace through burners commonly referred to as liquor guns. These liquor guns often include simple nozzles provided with some form of splash or deflection plate that is mounted on the nozzle. Typically, the liquor guns are mounted for rotation about a horizontal axis, whereby the vertical position of the nozzle and deflector plate may be adjusted in order to direct the spray of the black liquor. Due to the harsh environment of the mill and recovery furnace, the entire spray gun assembly, including the tilting mechanism, must be very sturdily constructed. At the same time, the harsh environment requires that the liquor guns be serviced relatively frequently. For example, the nozzle portion of the gun projects inside the recovery furnace and is constantly exposed to high temperatures and the black liquor. Thus, the nozzles need cleaning, repair or replacement.
Accordingly, there exists a need to provide a liquor gun assembly that is not only well adapted for the harsh environment of a recovery furnace, but which also facilitates access and service of the liquor gun.
A liquor gun holder in accordance with this invention generally comprises a spray rod (splash plate cleaning device), a carriage assembly and a rail assembly. The spray rod and gun holder is rotatably connected to the carriage assembly. The carriage assembly is mounted to the rail assembly for linear translation relative to a wall of the recovery furnace. The liquor gun thus includes a retractable spray rod which may be translated from an active position where its nozzle is positioned within the interior chamber of the furnace, to a service position where the spray rod is retracted and the nozzle is outside the chamber. The retractable spray rod permits service on liquor gun, including the nozzle of the spray rod.
According to more detailed aspects, the carriage assembly includes a tilting mechanism which allows the spray rod and gun holder to be tilted relative to a horizontal axis. Preferably, the tilting mechanism and the carriage assembly are positioned laterally (i.e. to the side) of the spray rod. When a cleaning assembly is provided to remove accumulated black liquor from the deflector plate, the cleaning assembly is preferably vertically aligned with the spray rod, and thus also positioned laterally from the carriage assembly. In this manner, the spray rod and cleaning assembly may be tilted, while at the same time permitting axial translation of the spray rod and scraper assembly via the carriage and rail assemblies which are positioned to prevent interference with the spray rod.
According to even further aspects of the invention, the rail assembly is preferably positioned vertically below the carriage assembly, and importantly is also positioned laterally from the spray rod. The rail assembly typically includes a connection plate and tab which correspond with vertically extending mounting plates attached to a wall plate of the recovery furnace wall. The wall plate generally includes an elongated slot or aperture for providing access to the interior chamber of the recovery furnace. While the nozzle of the spray rod must be aligned with this opening for spraying black liquor into the furnace, the carriage assembly and rail assembly are preferably laterally positioned from the spray rod so that these mechanisms are not aligned with the opening, and thereby partially sheltered from that environment. At the same time, the retraction of the spray rod and its nozzle does not cause any black liquor to leak or seep onto the carriage assembly or rail assembly, as they are laterally positioned therefrom.
Turning now to the figures,
The liquor gun 22 generally comprises an inlet tube 24 fluidically connected to a spray tube 26, which in turn is fluidically connected to a nozzle 28. The inlet tube 24 is connected to the spray tube 26 by way of a hinge coupling 30 which allows the inlet tube 24 and spray tube 26 to rotate relative to one another. The nozzle 28 is coupled to the spray tube 26 by way of a coupling 32, thereby allowing the nozzle 28 to be individually replaced or repaired. The nozzle 28 projects through a port 14 formed in the exterior wall 12 of the recovery furnace. The distal end of the nozzle 28 includes a deflector plate 34 as is known in the art for forming a spray pattern with the black liquor to promote vaporization and recovery in the recovery furnace.
The liquor gun 22 is connected to the carriage assembly 40 by way of a clamp 35. The clamp 35 is secured to the horizontal arm of an L-shaped bracket 36. The downwardly depending arm of the L-shaped bracket 36 is mechanically connected to the cleaning assembly 16 which includes a cylinder 17 operatively connected to a scraper or cutting head 18. As is known in the art, the cleaning assembly 16 translates the cutting head 18 into engagement with the deflector plate 29 to scrape the deflector plate 34 and free any black liquor or other debris that has collected thereon. In sum, the liquor gun 22 and cleaning assembly 16 are rigidly connected by way of the L-shaped bracket 36.
The L-shaped bracket 36 is attached to a pivot pin 38 which extends laterally from the cleaning assembly 16, as best seen in
The first plate 42 extends downwardly from the pivot pin 38 and the bearing 46 for connection to the rail assembly 60, as will be described below. As best seen in
Referring now to
A block 52 is connected to a lower end of the first plate 42, and includes a plurality of apertures 74 as seen in
In operation, the liquor gun holder 20 permits axial, preferably horizontal, translation of the cleaning assembly 16 and the liquor gun 22 via the carriage assembly 40, to selectively position the liquor gun 22 relative to the internal chamber 10 of the recovery furnace. A retracted service position of the liquor gun 22 and carriage assembly 40 has been depicted in
In addition to the axial translation of the liquor gun 22 described above, the carriage assembly 40 and its tilt mechanism (not shown) permit the liquor gun 22, and the cleaning assembly 16, to be rotated about a horizontal axis defined by the pivot pin 38. The opening 71 formed in the wall plate 72, as well as the port 14 defined in the furnace wall 12, are sized to permit the axial translation of the liquor gun 22 and carriage assembly 40 relative to the rail assembly 60 regardless of whether the liquor gun 22 is in a horizontal or tilted position. Likewise, the ability to tilt as well as axially translate the liquor gun 22, either sequentially or simultaneously, is permitted by virtue of placing the carriage assembly 40 and corresponding rail assembly 60 laterally from the cleaning assembly 16 and the liquor gun 22, as best seen in the end view of
It will also be seen that the opposing plates 42, 44 of the carriage assembly 40, which house the bearing 46 and gearing assembly for tilting the cleaning assembly 16 and the liquor gun 22, are vertically positioned above the rail assembly 60, and in particular the rail 76 and guides 78. Accordingly, the liquor gun 22 may be translated horizontally and away from the internal chamber 10 of the recovery furnace, to thereby allow service or replacement of the liquor gun 22 as well as cleaning or other maintenance. At the same time, the liquor gun 22 may be tilted and the carriage assembly 40, including the tilting mechanism, and rail assembly 60 are protected from the harsh environment of the recovery furnace.
This patent application claims the benefit of U.S. provisional patent application 60/575,669, filed May 28, 2004.
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Number | Date | Country | |
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20050263108 A1 | Dec 2005 | US |
Number | Date | Country | |
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60575669 | May 2004 | US |