KR20080081140A - A thermocouple for a flowing bed boiler - Google Patents

Abstract

A thermocouple for a flowing bed boiler is provided to smoothly discharge gas by forming an air gap between protective pipes and a gas discharging hole connected to the air gap. A thermocouple(100) includes a thermocouple sheath(110), a protective pipe(120), a terminal block(130), a thermocouple head(140), and a flange(150). The sheath detects the temperature of a combustion furnace to output a current. The protective pipe protects the thermocouple sheath. The terminal block includes a cable terminal(131). The terminal block is fixed in the protective pipe. The thermocouple head fixes the protective pipe. The flange is provided at an outer circumference of the protective pipe and used to mount the thermocouple sheath.

Description

Fluidized Bed Boiler Heat Resistance Thermocouple {A Thermocouple for A Flowing Bed Boiler}

The present invention relates to a heat-resistant thermocouple for detecting the temperature of a combustion furnace of a fluidized bed boiler of a coal-fired power plant using coal (anthracite coal). The present invention relates to a fluidized bed boiler heat-resistant thermocouple that is suitable to be able to prolong the replacement cycle by prolonging the replacement cycle to enable stable temperature control of the boiler and ultimately to achieve a stable power generation operation.

In general, fluidized bed fluidized bed boilers using coal (anthracite coal) thermal power control the combustion furnace temperature in order to suppress the generation of nitrogen oxide compounds, to suppress the clinker production and to maximize the desulfurization effect. Heat-resistant thermocouples are used to detect the temperature of.

1 is a block diagram of a fluidized bed boiler heat resistant thermocouple according to the prior art.

As shown in FIG. 1, the fluidized bed boiler heat resistant thermocouple 1 according to the prior art includes a thermocouple sheath 11 that senses a temperature of a combustion furnace B of a thermal power plant boiler and outputs it as a current. The protection tube 12 for installing the thermocouple element wire 11 to protect the thermocouple element wire 11 located in the furnace (B), and the thermocouple element wire 11 is fixed to be installed in the protective tube 12 The terminal block 13 is provided with a cable terminal (13a), and the cable through hole (14a) through which the cable (C1) connected to the cable terminal (13a) is formed, the terminal block 130 is formed is formed A thermocouple head 14 coupled to the protective tube 12 to fix the protective tube 12 and a flange 15 provided on an outer circumferential surface of the protective tube 12 to mount the heat resistant thermocouple 1 to the combustion furnace B. ) And the thermocouple head 14 depending on the state of use. ) And a connector 16 for connecting the protective tube 12 may be further included.

However, the fluidized bed boiler heat resistant thermocouple 1 according to the related art has the following problems.

As shown in FIG. 1, the conventional protective tube 12 is composed of a metal alloy containing nickel as a main component in order to withstand a high temperature of 1100 to 1500 degrees as a single structure. In the case of the metal alloy containing nickel as a main component, There was a problem of being corroded by the sulfur gas discharged from the combustion furnace (B). In particular, fluidized bed boilers are more easily corroded by the flow of fluid such as sulfur gas.

Thus, since the protection tube 12 was eroded by sulfur gas and reached its end of life within several months, the heat resistant thermocouple 1 had to be replaced frequently.

However, due to the characteristics of the fluidized bed boiler of the thermal power plant, the conventional heat resistant thermocouple 1 can be replaced only when stopped for a long time, and the heat resistant thermocouple 1 cannot be replaced during operation due to the constant pressure in the combustion furnace. The replacement was not possible due to the spilled bed media.

In addition, stable power supply is required for stable power supply, and for this, it is important to maintain a stable temperature inside the boiler. As described above, it is difficult to measure and control the stable and continuous temperature, thus achieving stable power generation operation. There was no fatal problem.

The present invention was created to solve the problems of the prior art as described above, the object of the fluidized bed boiler heat resistance thermocouple according to the present invention, to implement the protection tube in a triple structure to implement corrosion resistance and heat resistance and sulfur gas resistance at the same time Accordingly, the present invention provides a fluidized bed boiler heat resistant thermocouple adapted to achieve corrosion resistance, heat resistance, and sulfur gas resistance at the same time to extend the service life.

Another object of the fluidized bed boiler heat resistant thermocouple according to the present invention is to achieve stable corrosion detection, heat resistance and sulfur gas resistance at the same time to extend the life, to prolong the replacement cycle of the thermocouple to enable stable temperature detection of the fluidized bed boiler ultimately stable It is to provide a fluidized bed boiler heat resistant thermocouple suitable for achieving power generation operation.

Another object of the fluidized bed boiler heat resistant thermocouple according to the present invention is to form an air gap between the heat resistant protective tube and the intermediate protective tube and to form a gas discharge hole to communicate with the air gap, thereby preventing the gas generated inside the protective tube of the triple structure. It is to provide a fluidized bed boiler heat resistant thermocouple suitable for smooth discharge.

Fluidized bed boiler heat resistant thermocouple of the present invention for achieving the above object, the thermocouple wire to sense the temperature of the combustion furnace of the thermal power plant boiler and outputs as a current, and to protect the thermocouple element located inside the combustion furnace A protective tube for insulated thermocouple wires, a terminal block fixedly supported such that the thermocouple wires are insulated in the protective pipe, and provided with a cable terminal, and a cable through which the cable connected to the cable terminal is installed in the terminal block. A thermocouple head which is formed and is coupled to the protective tube to fix the protective tube, and is provided on an outer circumferential surface of the protective tube and comprises a flange for mounting a heat resistant thermocouple to a combustion furnace. In the protective tube, the thermocouple element wire To prevent the thermocouple element wire from melting in the combustion furnace, and to protect the heat resistant protective tube from being corroded by sulfur gas in the combustion furnace by enclosing the heat resistant protective tube away from the heat resistant protective tube. And an intermediate protective tube which is bonded to an outer surface and an inner surface of the protective outer shell and prevents the heat resistant protective tube from being corroded by sulfur gas inside the combustion furnace when the protective outer shell is cracked.

Fluidized bed boiler heat resistant thermocouple of the present invention having the configuration as described above has the following effects.

First, by the protection tube of the triple structure, it is possible to implement corrosion resistance, heat resistance and sulfur gas resistance at the same time, as a result has the effect of extending the life (use life).

Second, by extending the service life by realizing corrosion resistance, heat resistance and sulfur gas resistance at the same time, it is possible to detect the stable temperature of the fluidized bed boiler by prolonging the replacement cycle of the thermocouple, resulting in a stable power generation operation.

That is, the temperature detection without affecting the sulfur gas inside the fluidized bed boiler combustion furnace and the corrosion of the oxidized gas such as sulfur gas can be implemented to achieve a stable temperature detection of the fluidized bed boiler has the effect of achieving a stable power generation operation.

Third, by forming an air gap between the heat resistant protective tube and the intermediate protective tube and forming a gas discharge hole so as to communicate with the air gap, there is an effect that can smoothly discharge the gas generated inside the protective tube of the triple structure.

The following will be described in detail with reference to the accompanying drawings, preferred embodiments of the present invention fluidized bed boiler heat resistant thermocouple.

FIG. 2 is a block diagram of a fluidized bed boiler heat resistant thermocouple according to an embodiment of the present invention, and FIG. 3 is an external perspective view of FIG. 2.

2 and 3, the fluidized bed boiler heat resistant thermocouple 100 according to an embodiment of the present invention, for detecting the temperature of the combustion furnace (B) of the thermal power plant boiler, the combustion of the thermal power plant boiler A protective tube for installing the thermocouple element wire 110 to sense the temperature of the furnace (B) to output the current as a current, and to protect the thermocouple element wire 110 located in the combustion furnace (B). 120 and the terminal block 130 is fixedly supported so that the thermocouple element wire 110 is installed in the protective tube 120, and is provided with a cable terminal 131, and the terminal block 130, A cable through-hole 140a through which the cable C1 connected to the cable terminal 131 passes is formed and is coupled to the protective tube 120 to thermocouple head 140 to fix the protective tube 120, and the protective tube 120. ) Is provided on the outer circumferential surface of the In the heat-resistant thermocouple for detecting the temperature of the combustion furnace of the thermal power plant boiler comprising a flange 150 for mounting the 100, the protective tube 120 is a heat-resistant protective tube 122 and the protective appearance 126 and the intermediate protective tube It is characterized by consisting of a triple structure of (124).

In addition, the fluidized bed boiler heat resistance thermocouple 100 according to an embodiment of the present invention, the thermocouple head 110 and the protection tube 120 for connecting the connection tube 160 according to the use state further comprises Can be.

The heat resistant protective tube 122 is a configuration for preventing the thermocouple element wire 110 from melting at a high temperature of 1100 to 1500 degrees in the combustion furnace (B) by installing the thermocouple element wire 110.

The heat-resistant protective tube 122 can prevent the thermocouple element 110 from melting at a high temperature of 1100 ~ 1500 degrees by employing a variety of metal alloys known before the present application, for example, 'Hastelloy-X (Hastelloy-X) Can be implemented by '.

The intermediate protective tube 124 is spaced apart from the heat resistant protective tube 122 and bonded to the inner surface of the protective outer tube 126, so that the protective outer tube 126 is burned in the combustion furnace B (eg, coal). In the case of cracking due to the impact of and prevents the sulfur gas inside the combustion furnace (B) from penetrating into the heat resistant protective tube 122 to prevent corrosion of the heat resistant protective tube 122 by the sulfur gas.

The protective exterior 126 is bonded to an outer surface of the intermediate protective tube 124 to surround the heat resistant protective tube 122, and prevent the heat resistant protective tube 122 from being corroded by sulfur gas inside the combustion furnace B. It is a structure for doing so.

The intermediate protective tube 124 and the protective appearance 126 may employ various metal alloys known before the present invention to prevent corrosion of the heat resistant protective tube 122 by sulfur gas, and preferably contain nickel. It may be made of a metal alloy that is not (ie, excludes nickel) or contains an extremely small amount of nickel (eg, 0.1% or less), such as 'stainless series 446'.

In the fluidized bed boiler heat resistant thermocouple 100 according to an embodiment of the present invention, the heat resistant protective tube 122 and the intermediate protective tube 124 may collect gas generated in the protective tube 120 due to shrinkage and expansion. An air gap 123a is formed therebetween, and the gas discharge hole 123b communicates with the air gap 123a to discharge the gas collected in the air gap 123a to the outside. 124 and the protective exterior 126 is characterized in that it is formed through.

That is, the protective tube 120 according to the present invention has a triple tube structure, and the protective tube 120 of the triple tube structure is installed inside a high temperature combustion furnace B, and thus, the heat resistant protective tube 122 having different physical properties in the temperature measurement process. ) And the intermediate protective tube 124 and the protective exterior 126 generates a gas (hot gas) while repeating contraction and expansion. If the gas is not discharged, problems such as deformation and explosion of the protective tube 120 are generated and discharged. The air gap 123a and the gas discharge hole 123b play a role in this configuration.

And, as shown in Figure 2, the heat resistant protective tube 110 and the intermediate protective tube 124 is joined by welding (w1) at one end in the direction of the thermocouple head 140, and thus the air gap 123a One end of the thermocouple head 140 in the direction is finished by the welding (w1) so that the gas in the air gap 123a is discharged to the outside only through the gas discharge hole (123b).

And, as shown in Figure 2, the protective appearance 126 is terminated at the inner surface (150a) of the flange 150 to be provided only in the combustion furnace (B), the flange 150 is the intermediate protective tube ( Extrapolated to the 124 is installed, the gas discharge hole 123b is characterized in that the through-through the intermediate protection pipe 124 in the outer side of the flange 150.

The following describes the operation of the fluidized bed boiler heat resistant thermocouple of the present invention having the configuration as described above.

Even when the inside of the combustion furnace maintains a high temperature of 1100 to 1500 degrees, the thermocouple element 110 can be protected by the configuration of the heat resistant protection tube 122, and the flow of the sulfur gas fluid flowing in the combustion furnace B is maintained. Even when this occurs, the heat resistant protective tube 122 can be prevented from being corroded by the configuration of the protective outer casing 126 and the intermediate protective tube 124, and also caused by solids such as coal in the combustion furnace B. Even if the impact acts on the protective sheath 126 and a crack occurs in the protective sheath 126, the structure of the intermediate protective sheath 124 prevents the sulfur gas from penetrating into the heat resistant protective sheath 122.

The above embodiments of the present invention are merely one embodiment of the technical idea of the present invention, and of course, other modifications can be made within the technical idea of the present invention by those skilled in the art.

BRIEF DESCRIPTION OF THE DRAWINGS It is a principal block diagram of the fluidized bed boiler heat resistant thermocouple by a prior art.

2 is a main configuration diagram of a fluidized bed boiler heat resistant thermocouple according to an embodiment of the present invention.

3 is an external perspective view of FIG. 2.

         Explanation of symbols on the main parts of the drawings

100; Thermocouple according to the present invention

110; Thermocouple element 120; Sheriff

122; Heat resistant protective tube 123a; Air gap

123b; Gas outlet 124; Intermediate sheath

126; Protective appearance 130; Terminal Block

131; Cable terminal 140; Thermocouple head

140a; Cable through 150; flange

C1; Cable 160; Connector

B; Combustion Furnace of Fluidized Bed Boiler in Thermal Power Plant

Claims (3)

The thermocouple element 110 to detect the temperature of the combustion furnace (B) of the thermal power plant boiler and to output the current as a current, and to protect the thermocouple element 110 located in the combustion furnace (B). ) And the terminal block 130 is fixed to the thermocouple element wire 110 to be installed in the protective tube 120, and the cable terminal 131 is provided, the terminal block 130 ) And a thermocouple head 140 having a cable through hole 140a through which the cable C1 connected to the cable terminal 131 passes and fixing the protective tube 120 in combination with the protective tube 120. In the fluidized bed boiler heat resistance thermocouple is provided on the outer circumferential surface of the protective tube 120 and comprises a flange 150 for mounting the heat resistant thermocouple 100 in the combustion furnace (B): The protective tube 120, A thermo-resistant protective tube 122 for installing the thermocouple element wire 110 to prevent the thermocouple element wire 110 from being melted in the combustion furnace B; A protective exterior 126 spaced apart from the heat resistant protective tube 122 to surround the heat resistant protective tube 122 to prevent the heat resistant protective tube 122 from being corroded by sulfur gas in the combustion furnace B; An intermediate protective tube is bonded to an inner surface of the protective outer casing 126 to prevent corrosion of the heat resistant protective tube 122 by sulfur gas inside the combustion furnace B when the protective outer casing 126 is cracked. 124) fluidized bed boiler heat-resistant thermocouple characterized in that consisting of. The method according to claim 1, An air gap 123a is formed between the heat resistant protective tube 122 and the intermediate protective tube 124 to collect gas generated in the protective tube 120 due to shrinkage and expansion. In order to discharge the gas collected in the air gap 123a to the outside, it is communicated with the air gap 123a so that the gas discharge hole 123b penetrates the intermediate protective tube 124 and the protective exterior 126. Fluidized bed boiler heat resistant thermocouple. The method according to claim 2, The protective exterior 126 is terminated at the inner surface 150a of the flange 150 to be provided only in the combustion furnace (B), the flange 150 is installed to be extrapolated to the intermediate protective tube 124, The gas discharge hole (123b) is a fluidized bed boiler heat resistance thermocouple, characterized in that the through-hole formed in the intermediate protection pipe (124) outside the flange (150).

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