FI116541B - Erosion protection of circulating fluidized bed boiler - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to a method according to the preamble of claim 1 for protecting the inner surface of a circulating fluidized bed boiler over the protective wall of the furnace from wear caused by suspension flows. The invention further relates to a circulating fluidized bed boiler according to the preamble of claim 8.

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Background of the Invention

The fluidized bed boiler (CFB) furnace has a complex suspension flow. The furnace suspension flow consists essentially of an upward flow in the center of the furnace 15 where the density of the suspension decreases from a value of 1000 kg / m 3 to a density of 3 kg / m 3 at the top. The upstream flow of the central region differs along particles along the distance near the walls. Particle velocity slows down and eventually turns to a vir-20 down just near the wall. The downward particle flow is typically about 50 to 100 mm thick and the particle film formed by the flow has a maximum thickness · · · j at the lower parts of the furnace.

• ·:. ·. Due to the abrasive effect of the furnace suspension flow, the water pipes in the walls of the furnace "V 25 are protected by a protective coating at vulnerable points. Typically, membrane-structured water pipes are protected by" ··· 1 50 ... height from the bottom of the furnace.

: '' ': 30 Erosion at the bottom of the furnace massaging end is strong if no method is used to prevent it. It is believed that the erosion is due, at least in part, to the fact that the downwardly sliding suspension collides with the edge of the massaging and produces an upward center current. . with the backdrop of a vortex that tends to wear down the furnace wall.

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The wear at the end of the mass has been prevented by coating the wall (water pipe) above the mass at a height of 300-600 mm with a wear-resistant coating (so-called hard coating), the upper part of which has been made as smooth as possible without the shoulder.

5 The above dimensions naturally depend on the size and dimensioning of the boiler.

However, when coating a wall with a hard coating above the masonry, the wear immediately on the masonry is often so strong 10 that the coatings will not withstand long wear. In addition, a small shoulder is often formed on the top of the coating during use, for example due to cleavage of the coating or wear of the tube (because the tube, as a softer material, wears out faster than the coating). The shoulder causes a discontinuity and a vortex to flow down the particle. Under the influence of the vortex in the particle flow-15, the wall and the pipes therein are worn. In other words, the known solutions have at least a problem with the wear of the tube and / or coating immediately above the mass, and the wear of the tube at the top of the coating and the like.

Summary of the Invention Ivhvt • - ► · # •

A solution has now been found which substantially reduces wear on the top wall of the mass.

Y 25 For this purpose, the method according to the invention is essentially characterized in what is stated in the characterizing part of the independent patent claim ···. The circulating fluidized bed boiler of the invention, in turn, is mainly characterized by what is disclosed in the characterizing part of independent claim 8. Other preferred claims disclose some preferred embodiments of the invention.

A basic idea of the invention is to provide a protective structure comprising at least a first zone and a second zone to protect the interior surface of the steam boiler furnace wall from the wear caused by suspension flows. 3 116541 The abrasion resistance characteristics of the standing zones differ.

In one embodiment of the invention, the first zone is located at least partially above the second zone. The coating of the first zone has such properties that no abrasive shape is formed at the end of the coating. The material properties of the second zone, in turn, inhibit the particular zone. point of wear. According to one embodiment, the abrasion resistance of the first zone is less than 10 than the abrasion resistance of the second zone.

In a solution according to an embodiment of the invention, the coating property, such as the chemical composition, changes gradually or stepwise as it moves from the first zone to the second zone. Different techniques can be used to create zones. The properties of the material can be changed by changing the composition of the material and / or modifying the material. One possible way is to change the properties of the material so-called. using laser technology. The smooth adhesion of the coating to the wall can also be accomplished in a number of ways, such as by coating technology or machining (e.g., grinding).

': In another embodiment of the invention, two different coatings are partially overlapped. The lower zone is formed of harder material. For example, the wall is coated by hard welding or metal spraying to form a second zone. Subsequently, it is preferably welded or coated with a softer material from above the second zone, preferably down to the masonry. In a preferred embodiment, the coating connection to the tube is made stepless. In a preferred embodiment, the material of the first zone corresponds to the wear characteristics of the tube. There is no wear and shoulder formation at that point. In known solutions, the formation of a shoulder may be due either to cleavage of the coating or to the wear of the tube as a softer material faster than the coating.

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The material of the second zone, i.e. a kind of hard coating, substantially reduces wear. The first zone, the soft coating, in turn, is allowed to wear. If necessary, it can be repaired by adding material, for example, by spraying or welding. 5

The structure according to the invention achieves several advantages. One major benefit is reduced wear.

In some embodiments, the invention also enables the coating 10 to be repaired. In some cases, the possibility of repairing the coating is facilitated by the possibility of welding.

BRIEF DESCRIPTION OF THE DRAWINGS The invention will now be described in more detail with reference to the accompanying principal drawings, in which Figure 1 illustrates an embodiment of the invention and Figure 2 illustrates another embodiment of the invention.

For the sake of clarity, the drawings show only an understanding of the invention. the details needed for it. Unnecessary to the understanding of the invention but obvious to one skilled in the art, details have been omitted from the figures to emphasize the features of the invention. The proportions of the images are also chosen so that the images fully convey the basic idea of the invention. Thus, the relative proportions of the various parts may differ significantly from those of the images.

: Detailed Description of the Invention •

Figure 1 shows a part of the lower part of a furnace 35 of a steam boiler, such as a circulating fluidized bed boiler. In the example, the wall 3 of the furnace is so-called. water wall or wall: forms water pipes 3 circulating the furnace, typically made of unalloyed or low-alloy steel. Typically, the lower part of the furnace has a protective mass 4 (often masonry or the like).

According to a basic idea of the invention, a protective structure 1,2 is formed on the inner surface 5 of the furnace wall 3 in order to protect the inner surface above the protective mass 4 from the wear caused by the suspension flows. Said protective structure comprises at least a first zone 1 and a second zone 2, the zones of which have different abrasion resistance characteristics. The coating 1 of the first zone 10 has such properties that at the end of the coating no abrasive shape is formed at the wall 3. The material properties of the second zone 2, in turn, prevent excessive wear of the protective structure. The second zone 2 is a kind of hard coating. Preferably, the abrasion resistance of the first zone 1 is less than the abrasion resistance of the second zone 15. The first zone 1 is allowed to pass during use. By appropriately selecting the material of the first zone 1, the first zone can be repaired, if necessary, for example by injection or welding.

As shown in Figure 1, in the exemplary embodiment of the invention, the first zone 1 is located at least partially above the second zone 2 in the direction of the furnace wall 3. For example, *. solution, such as, for example, ·. The composition is gradual or incremental as the transition from the first 25 zones 1 to the second zone 2 is accomplished by various techniques. One possible way is to change the properties of the material so-called. using laser technology. The properties of the material can be changed by changing the composition of the material and / or modifying the material. The smooth joining of the coating (particularly the first zone) to the wall 3 can also be accomplished in a number of ways, such as by coating technology or by machining (e.g., grinding).

Figure 2, in turn, illustrates another embodiment of the invention; 35 where two different coatings are used, partially overlapping. The second, i.e., lower zone 2 is formed from a better wear-resistant material than the first, or upper, zone 1. For example, the wall 3 may be coated by hard welding or metal spraying to form a second zone. Thereafter, the first zone 1 is preferably formed from above the second zone 2 up to the protective compound 45 by welding or other coating. In a preferred embodiment, the material of the first zone 1 corresponds substantially to the properties of the wall 3 of the furnace, i.e. in the example of the water pipe, as regards its rubbery properties. Thus, at the junction of the first zone 1 and the wall 3, there is no harmful amount of wear and thus no shoulder formation. In a preferred embodiment, the connection of the first zone 1 to the pipe 3 is formed such that it does not cause substantial wear. For example, the joint may be made such that the angle between the surfaces of the pipe 3 and the first zone 1 in the particle flow direction is minimized or the joint is substantially infinite. The solutions presented reduce or substantially eliminate prior art problems, such as the fact that the formation of a shoulder is either caused by cleavage of the coating or that the tube, as a softer material, wears out faster than the coating.

By combining the operating modes and structures presented in connection with the various embodiments of the invention described above in different ways, various embodiments of the invention, which are the spirit of the invention, can be obtained. gen. Therefore, the foregoing examples should not be construed as limiting the invention, but embodiments of the invention may freely vary within the scope of the inventive features set forth in the claims below.

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Claims (14)

116541 A method for protecting the inner surface of a circulating fluidized bed boiler wall (3) above the protective mass (4) from abrasion caused by the flow of suspension, comprising forming a protective structure on the inner surface of the boiler wall, characterized in that at least a first zone (1) and the zones of which have different abrasion resistance characteristics 10. Method according to Claim 1, characterized in that the protective structure is formed on the surface of the water pipe (3) of the boiler water wall. Method according to claim 1 or 2, characterized in that the first zone (1) is located at least partially above the second zone (2) in the direction of the furnace wall (3). Method according to one of the preceding claims, characterized in that the abrasion resistance of the first zone (1) is lower than that of the second zone (2) under operating conditions. '<«» Method according to one of the preceding claims, characterized in that the first zone (1) and the second zone (2) are formed of different materials. A method according to any one of claims 1 to 4, characterized in that the first zone (1) is formed from the first material and the second zone (2) is formed by doping the first material. A method according to any one of claims 1 to 4, characterized in that the second zone (2) is formed from the first material and the first zone (1) is formed by doping the first material. »> 116541 A circulating fluidized bed boiler comprising at least a furnace, a protective mass (4) for protecting the inner surface of a protective mass (4) provided on the wall (3) of the lower part of the furnace and a protective structure (at least partially above the protective mass (4)) 4) for protecting the upper inner surface from abrasion caused by suspension flows, characterized in that the protective structure comprises at least a first zone (1) and a second zone (2), the zones of which have different abrasion resistance properties. A circulating fluidized bed boiler according to claim 8, characterized in that the protective structure is arranged on the surface of the water pipe (3) of the boiler water wall. A circulating fluidized bed boiler according to claim 8 or 9, characterized in that the first zone (1) is located at least partially above the second zone (2) in the direction of the furnace wall (3). »I »· •; ·; A circulating fluidized bed boiler according to any one of claims 8 to 10, characterized in that the abrasion resistance: of the first zone (1) is less than that of the second zone (2) in the operating condition: 25. * · A circulating fluidized bed boiler according to any one of claims 8 to 11, characterized in that the first zone (1) and the second zone (2):. is made of different materials. ': 30 A circulating fluidized bed boiler according to any one of claims 8 to 11, characterized in that the first zone (1) is formed of a first material and the second zone (2) is formed by blending the most material. 35 * i 116541 A circulating fluidized bed boiler according to one of the preceding claims 8 to 11, characterized in that the second zone (2) is formed from the first material and the first zone (1) is formed by blending most of the material. 116541