KR20190060292A - Nozzle for long soot blower - Google Patents

Abstract

The present invention provides a nozzle for a soot blower capable of efficiently cleaning soot or ashes adhering to the entire surface of a steam tube. More specifically, the present invention relates to a cleaning nozzle mounted on a lance tube capable of entering a furnace of a boiler having tube bundles therein for steam generation and rotating inside the furnace. The cleaning nozzle comprises: a liquid core injection hole for injecting steam or air into a liquid core phase; and a liquid sheet injection hole for injecting steam or air into a liquid sheet phase.

Description

NOZZLE FOR LONG SOOT BLOWER < RTI ID = 0.0 >

The present invention relates to a method and apparatus for removing soot or ash adhering to a heat transfer surface disposed in a furnace or a flue of a boiler by blowing a steam or air jet (jet flow) To a nozzle for a blower.

The power generation boiler is driven by the high temperature and high pressure steam generated by the combustion of the fuel, and soot and soot adhere to the surface of the furnace or the steam tube during power generation. This phenomenon is remarkable in a thermal power plant developed using fossil fuels. Since the heat transfer efficiency of the steam tube is lowered as the accumulated ash and soot are accumulated, steam or air is periodically sprayed to remove soot and soot. It is the soot blower that is used here.

In prior art documents relating to soot blowers which are referred to in the present invention,

Patent Document No. 10-1056710, Patent Document No. 10-1697138, and Patent Document No. 10-1748802 are known.

The prior art is to prevent erosion of the inner wall of the nozzle cap due to the steam injection pressure from the spiral nozzle mounted on the end of the lance tube of the sootblower. Although the vapor sprayed from the spiral nozzle is radial, It is not possible to remove the soot or ash adhering to the side and back sides of the tube because the steam or air is ejected only through the front side of the tube.

Prior art ⓑ is a method in which steam is sprayed into the boiler and the lance tube which removes the soot is returned to when the condensate water attached to the inner wall of the lance tube is sprayed together with the steam due to the low temperature, The soot blower is designed to prevent side effects such as pitting. Since the direction of injection of the steam injection part mounted on the lance tube entering and leaving the inside of the boiler is limited to the front side of the tube of the boiler, the soot blower is also attached to the side and back side of the tube Soot and ashes can not be removed at all.

The prior art ⓒ is a soot blower provided with a first nozzle and a second nozzle for spraying a cleaning agent such as steam, high-pressure water, dry ice pellets, sand or the like in a selective or mixture form to wash the tube, wherein the lance tube is rotated at a constant inclination angle The rotation of the first and second nozzles rotates the rotation of the tube in the clockwise or counterclockwise direction from 0 DEG to 180 DEG), so that the sootblower is also similar to the other types of sootblowers described above It is impossible to clean the side and back of the tube at the same time.

Patent No. 10-1056710 Patent No. 10-1697138 Patent No. 10-1748802

SUMMARY OF THE INVENTION It is an object of the present invention to provide a soot blower nozzle capable of efficiently cleaning soot or ashes attached to the entire surface of a steam tube of a boiler.

Technical Solution According to an aspect of the present invention, there is provided a cleaning nozzle mounted on a lance tube capable of rotating in and out of a furnace and a furnace containing a tube bundle for generating steam, And a liquid film spray hole for spraying liquid sprayed on the liquid spraying nozzle.

According to the present invention, in the liquid film spraying nozzle, steam or air is directly sprayed on the front surface of the tube to remove soot or ash, and steam or air sprayed to the spraying nozzle spreads to the side surface of the tube and is cleaned The vortex causes the back of the tube to be cleaned.

According to the present invention, the steam or air sprayed to the liquid film sprayer removes soot or ash on the front surface of the tube, and the steam or air sprayed to the sprayer blows off the side surface of the tube, So that it is possible to remove the soot and ashes attached to the back surface of the tube together.

Figure 1 shows the action of a soot blower on a tube bundle in a boiler.
2 is a detailed perspective view of a soot blower nozzle according to the present invention;
Figure 3 shows the type of spray
Figure 4 shows the flow of cleaning vapors or air when the tube is cleaned by spraying the liquid.

1, a soot blower 1 in a general boiler is used for cleaning the surface of the tube 4 in the boiler 3 by spraying steam or air to the nozzle 2, It is an entry-exit type. Reference numeral 5 in FIG. 1 denotes a lance, (F) denotes a flow direction of combustion heat in the boiler 3, combustion gas, soot, and so on.

2 is a detailed view of a soot blower nozzle according to the present invention.

A soot blower nozzle (10) according to the present invention has a liquid film spray hole (11) and a liquid spray hole (12). The liquid film spray hole 11 is replaced with a conventional spray hole formed in the center of the nozzle 10 in the axial direction and the liquid spray hole 12 is formed in the rear surface of the liquid film spray hole 11, A plurality of injection holes slantingly perforated thereon.

The liquid injection hole 12 is formed to surround the vapor or air sprayed in the liquid film spray hole 11 back and forth so that the jetting pressure of the liquid film is not weakened, thereby improving the cleaning efficiency on the front surface of the tube.

As shown in FIG. 3, the vapor or air blown out into the liquid film spray hole 11 is the conical liquid film A, and the vapor or air blown out into the liquid-phase spray hole 12 shows the appearance of the delta type liquid film B .

Since the conical liquid film (A) spreads radially and disperses, the pressure drops within a short time after cleaning the front surface of the tube, and even if the residual pressure swings to the side of the tube, it is not sufficient to generate strong vortex on the back side of the tube.

On the other hand, since the triangular columnar liquid film (B) is straight, the spray pressure is stronger than that of the conical liquid film (A). As shown in Fig. 4, the force is caused to swing toward the back surface of the tube, causing relatively strong vortex (C), and the vortex (C) cleans the back surface of the tube.

The delta type liquid film B is formed by laminating the front and rear screens of the conical liquid film A while rotating the lance 5 to prevent the broad spray of the conical liquid film A to reduce the pressure loss, And at the same time, induces the residual pressure of the conical liquid film (A) to be generated in the vortex generation, thereby contributing to the cleaning of the back surface of the tube.

The foregoing is a description of an embodiment of the present invention and is intended to be illustrative only and not to be construed as limiting the scope of the present invention as defined by the appended claims, Are to be construed as falling within the technical scope of the present invention.

1: sootblower 2: nozzle
3: boiler 4: tube
5: Lance 10: Nozzle
11: liquid film spray gun 12: liquid spray gun
A: conical liquid film B: delta type liquid film
C: Vortex

Claims (3)

A cleaning nozzle mounted on a lance tube capable of rotating in and out of a furnace and a furnace having a tube bundle for generating steam, comprising: a liquid spraying nozzle for spraying vapor or air on a liquid phase on the cleaning nozzle body; And a liquid film spray hole for spraying the liquid sprayed into the nozzle.
The nozzle for a soot blower according to claim 1, wherein the liquid film spray hole is located at the tip end in the axial direction at the tip center of the nozzle, and the liquid spray hole is formed obliquely on the outer peripheral surface of the nozzle after the liquid spray hole.
3. The soot blower nozzle according to claim 2, wherein the liquid film spray hole is a single number, and the liquid spray hole is formed in front of and behind the liquid film spray hole.

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