KR200443895Y1 - Classifier cyclone for desulfurization of thermal power plant - Google Patents

Abstract

The present invention relates to a classifier cyclone for desulfurization equipment in a thermal power generation system, all of which have a through hollow body, a vortex finder, an inlet head, a barrel, a cone, a spigot coupling by a synthetic resin material, and a spigot by a ceramic material. Combining the places sequentially constitute one; The vortex finder is filled between a ceramic portion in which a lower portion is inserted and seated on an inlet head, a metal recombination portion positioned above the ceramic portion, and coupled to the inlet head, and a coupling portion of the ceramic portion and the metal recombination portion. Consisting of a filler; The inlet head comprises a metal outer portion forming an outer shape of the body including an inlet pipe, a ceramic portion disposed along an inner wall of the metal outer portion, and a filler filled between the metal outer portion and the ceramic portion; A technical configuration is disclosed in which the barrel and the cone are each composed of a metal outer portion forming an outer shape of a body, a ceramic portion disposed along an inner wall of the metal outer portion, and a filler filled between the metal outer portion and the ceramic portion. .

Thermal power generation, desulfurization, limestone, cyclones, ceramics, wear resistance

Description

CLASSIFIER CYCLONE FOR DESULFURIZATION SYSTEM}

The present invention mainly relates to a classifier cyclone that is installed in a thermal power plant and used as a desulfurization facility. More specifically, a thermal power plant that has a long life as well as an efficiency of facility operation by enhancing ceramic wear resistance can be enhanced. A classifier cyclone for desulfurization equipment of a system.

In general, thermal power plants generate electricity using thermal energy obtained by burning fuels such as petroleum and coal, and sulfur components, which are harmful substances, are generated when burning fuels.

Accordingly, thermal power plants are required to be equipped with desulfurization equipment for environmentally friendly processes. This desulfurization equipment is a device for removing sulfur components generated during the combustion of fuel in thermal power plants. As a law, many techniques for removing sulfur using limestone slurry have been applied.

In other words, as a conventional desulfurization facility used to remove sulfur using limestone slurry, a cyclone (1), which is one of the separators, is applied as in the example of FIG. 1, and limestone slurry is used as a cyclone (1). Injected into the drop, but heavy gravity slurry is lowered as it is under the body, and lighter specific gravity particles are raised up to be separated from each other.

At this time, the limestone fine particles having a light specific gravity are used to absorb sulfur generated during combustion by being transported through the transfer pipe 2 while being raised above the body of the cyclone 1, and the specific gravity lowered below the body of the cyclone 1. This heavy limestone slurry is configured to be sent to a ball mill (not shown) provided as the lower portion of the cyclone 1 to be crushed and then reintroduced into the cyclone 1.

Thus, the conventional cyclone equipment used to remove sulfur by using limestone slurry is made of polyurethane material to reduce the wear of the cyclone due to the introduction of limestone slurry.

By the way, the cyclone for desulfurization equipment in thermal power plants was made of polyurethane material to reduce wear, but it did not lead to satisfactory wear resistance, and it was still worn out by frequent contact due to the input of limestone slurry. Due to the explosion of the cyclone and the leakage of the limestone slurry, the facility became dirty, which shortened the life of the cyclone, caused the inconvenience of frequent replacement and the inconvenience of frequent cleaning, and was difficult and economical. Many problems are occurring.

The present invention was devised to solve the above-mentioned problems, and provides a classifier cyclone for the desulfurization facility of a thermal power plant that can extend the service life by enhancing wear resistance and enable efficient facility operation. Its purpose is to.

The present invention improves the problems caused by the lack of wear resistance through the use of ceramic materials, which greatly prolongs the life of the cyclone, eliminates the inconvenience of frequent washing, and desulfurization facilities of thermal power generation systems that enable economic pursuit. To provide a classifier cyclone for

The present invention is a body having a through-hole in the classifier cyclone for desulfurization equipment, vortex finder, inlet head, barrel, cone, spigot coupling by synthetic resin material, and spigot by ceramic material Integrally constructed; The vortex finder is inserted into and seated on an inlet head, and a ceramic portion having a lower portion positioned inside the inlet head, a metal recombination portion integrally coupled to an upper side of the ceramic portion, and coupled to the inlet head, and the ceramic portion. And a filler to be filled between the coupling portion of the metal recombination portion; The inlet head comprises a metal outer portion forming an outer shape of the body including an inlet pipe, a ceramic portion disposed along an inner wall of the metal outer portion, and a filler filled between the metal outer portion and the ceramic portion; Each of the barrel and the cone may be made of a metal outer portion forming an outer shape of the body, a ceramic portion disposed along an inner wall of the metal outer portion, and a filler filled between the metal outer portion and the ceramic portion.

The present invention can greatly enhance the wear resistance according to the application of ceramic material, and can not only improve the problems caused by the lack of wear resistance, but also greatly extend the service life of the cyclone. Efficient operation and management of the facility, such as to eliminate the hassle and inconvenience, there is a useful effect to pursue economic feasibility.

The present invention will be described in detail with reference to the accompanying drawings.

2 and 3, the classifier cyclone 100 for the desulfurization facility of the thermal power generation system according to the embodiment of the present invention are all a body having a through hollow, vortex finder (110), inlet Inlet head 120, barrel 130, cone 140, spigot coupling 150, spigot 160 from top to bottom Sequentially combined and configured integrally.

The vortex finder 110 is inserted into and seated on the inlet head 120, and the ceramic part 111 is formed of a ceramic material having a lower portion located inside the inlet head 120, and above the ceramic part 111. It is positioned and integrally coupled and filled between the metal recombination portion 112 for coupling with the inlet head 120, and the coupling portion of the ceramic portion 111 and the metal recombination portion 112 to form a combination thereof. It is made of a filler 113 in charge of the adhesive function and the buffer function for the protection of the ceramic portion 111.

In this case, as the filler 113, it is preferable to use an epoxy resin to improve bonding strength between the ceramic part 111 and the metal recombination part 112, but various synthetic resin materials may be used.

The inlet head 120 is connected to the inner hollow on one side and the inlet pipe (A) for injecting limestone slurry for the desulfurization operation is connected, the metal forming the outer shape of the body including the inlet pipe (A) Filler such as an epoxy resin filled between the outer portion 121, the ceramic portion 122 disposed along the inner wall of the metal outer portion 121, and the metal outer portion 121 and the ceramic portion 122. It consists of 123.

The barrel 130 is a metal outer portion 131 forming the outer shape of the body, the ceramic portion 132 disposed along the inner wall of the metal outer portion, and between the metal outer portion 131 and the ceramic portion 132 It is made of a filler 133, such as epoxy resin to be filled in.

The cone 140 also has a metal outer portion 141 forming the outer shape of the body, a ceramic portion 142 disposed along the inner wall of the metal outer portion 141, and the metal outer portion 141 and the ceramic portion ( It consists of a filler 143, such as an epoxy resin, which is filled between 142.

The spigot coupling 150 is made of a synthetic resin material such as polyurethane.

The spigot 160 is composed of a single ceramic material of the entire body.

The ceramic parts 111, 122, 132 and 142 and the spigot 160 in which the inner wall or the body of each component is made of a ceramic material are composed mainly of aluminum oxide, and silicon oxide, calcium oxide, iron oxide, and the like. It is made of ceramic, which is a non-metallic inorganic solid material containing a, and is disposed in contact with the limestone slurry in order to have abrasion resistance according to the input and lowering of the limestone slurry.

In this case, aluminum oxide, which is a main component of the ceramic material, provides strength to the product, as well as excellent wear resistance, and has excellent physical properties such as heat resistance, corrosion resistance, and chemical resistance.

The metal recombination portion 112 and the metal outer portion 121, 131, 141 is preferably made of stainless steel to prevent corrosion, and function as a base body.

Here, the vortex finder 110 and the inlet head 120, the inlet head 120 and the barrel 130, the barrel 130 and the cone 140 are each clamped on the outer end by the clamp to form a mutual relationship. Done.

The vortex finder 110 and the inlet head 120 may be configured to be coupled to each other through screwing rather than clamping using a clamp.

The spigot 160 forms a mutual coupling relationship while being in close contact with the bottom of the cone 140 by the spigot coupling 150.

In the desulfurization facility classifier cyclone 100 according to the present invention having such a configuration is a limestone slurry for wet desulfurization is introduced through the inlet pipe (A) of the inlet head 120, the specific gravity from the limestone slurry is injected Particle separation by difference is performed.

That is, the limestone slurry is introduced into the cyclone 100 at a constant supply pressure and rotates and falls along the inner wall of the cyclone 100. At this time, the limestone slurry having a heavy gravity of the limestone slurry is lowered below the body and has a low specific gravity. Are elevated to separate from each other, the light-weight limestone particles are lifted over the body of the cyclone 100 is introduced into the transfer pipe (not shown) through the vortex finder 110 and then transported to generate the combustion Limestone slurry, which is used to absorb sulfur, which is heavy, is sent down to the ball mill (not shown) provided as a lower part of the cyclone 100 by being lowered below the body of the cyclone 100, and then pulverized. To be reloaded).

Here, the limestone slurry introduced and dropped into the cyclone 100 is in contact with the inner wall of the cyclone 100 and friction is generated at the contact portion by the supply pressure and the properties of the limestone slurry. The inner wall in contact with the limestone slurry is composed of a ceramic material containing aluminum oxide as a main component, thereby providing a stress against friction, and exhibiting a property of not being easily worn due to strong wear resistance.

Accordingly, it is possible to greatly reduce the wear of the cyclone (100) according to the input of limestone slurry, it is possible to improve the problems such as the explosion of the conventional cyclone or short replacement cycle and the appearance of messy, the cyclone (100) It can greatly extend the service life and enable economic equipment operation.

1 is an exemplary view shown to explain a commonly used cyclone.

Figure 2 is an exploded cross-sectional view showing a classifier cyclone for the desulfurization facility according to the present invention.

Figure 3 is an assembly cross-sectional view showing a classifier cyclone for the desulfurization facility according to the present invention.

Explanation of symbols on the main parts of the drawings

100: cyclone 110: vortex finder

120: inlet head 130: barrel

140: cone 150: spigot coupling

160: spigot 111,122,132,142: ceramic part

Claims (2)

In the desorption facility classifier cyclone for the thermal power generation system, which is a body having all through hollows, a vortex finder, an inlet head, a barrel, a cone, a spigot coupling by a synthetic resin material, and a spigot are sequentially combined. , The vortex finder is inserted into and seated on an inlet head, a ceramic part having a lower portion located inside the inlet head, a metal recombination part of stainless material for being integrally coupled to an upper side of the ceramic part and being coupled to the inlet head; A filler filled between the ceramic portion and the coupling portion of the metal recombination portion; The inlet head comprises a metal outer portion of a stainless steel material forming an outer shape of the body including an inlet pipe, a ceramic portion disposed along an inner wall of the metal outer portion, and a filler filled between the metal outer portion and the ceramic portion. ; The barrel and the cone each comprise a metal outer portion of a stainless material forming an outer shape of the body, a ceramic portion disposed along an inner wall of the metal outer portion, and a filler filled between the metal outer portion and the ceramic portion; The spigot is a classifier cyclone for the desulfurization facility of the thermal power system, characterized in that composed of a ceramic material. delete

Images