JPH05106802A - Fouling detector of heat transfer surface of boiler - Google Patents

Abstract

PURPOSE:To obtain a fouling detector capable of detecting fouling such as soot and scale deposit on heat transfer surfaces of a boiler and of identifying which deposit, soot or scale, causes the fouling, without a shut-down of the boiler. CONSTITUTION:A boiler 1 includes a combustion apparatus 4 and a flue for combustion gas, and a stack smoke sensor 6 is equipped in the flue to detect the concentration of exhaust smoke. The boiler is provided with an arithmetic device 8 which integrates the concentration signals of the stack smoke sensor 6 and outputs a soot deposit signal that indicates soot deposit on heat transfer surfaces when the integrated value exceeds the preset value.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for detecting dirt on a heat transfer surface of a boiler, and more particularly to a device for detecting dirt on a heat transfer surface of a boiler for detecting dirt such as soot and scale adhering to a boiler can. ..

[0002]

2. Description of the Related Art Conventionally, in order to discriminate dirt such as soot and scale (scale) attached to a boiler can (heat transfer surface),
Stop the boiler operation, discard all the water in the boiler can, and visually check the inside of the boiler can to check the adhered scale, or remove the burner etc. and visually inspect the combustion chamber etc. to attach soot. I was checking the condition.

Further, a method of attaching a temperature sensor (thermocouple, etc.) to the boiler can body for detecting scale adherence and judging the degree of scale adherence by overheating of the can body was also adopted, but the boiler can body itself. It is difficult to attach the temperature sensor to the, and even if it is attached, the sensor itself may be broken due to heat deterioration, etc., or the temperature sensor may come off the can body and output an erroneous signal. It is used together. However, in the case of visual inspection, the boiler operation had to be stopped, and in this case, the production line and the like had to be stopped, and in particular in the case of continuous operation for 24 hours, it was difficult to inspect.

[0004]

However, both soot and scale deposits impede heat transfer to boiler can water, resulting in an increase in boiler exhaust gas temperature. This rise in exhaust gas temperature has been conventionally taken as an alarm, but at this time, there is a problem in that it cannot be discriminated whether it is soot attached or scale attached.

The present invention has been made in view of the above circumstances, and its object is to detect the attachment of dirt such as soot and scale to the heat transfer surface of the boiler without stopping the operation of the boiler. An object of the present invention is to provide a stain detecting device for a heat transfer surface in a boiler, which can determine whether these stains are soot deposits or scale deposits.

[0006]

In order to achieve the above object, one aspect of the detection apparatus of the present invention is a boiler provided with a combustion device and a flue of combustion gas. A flue gas concentration sensor that detects the concentration and the concentration signal from the flue gas concentration sensor are integrated, and when this integrated value exceeds a preset value, it indicates that soot has adhered to the heat transfer surface. An arithmetic and control unit that outputs a soot adhesion signal is provided.

Another aspect of the detection apparatus of the present invention is a boiler provided with a combustion apparatus and a flue of combustion gas,
A flue gas concentration sensor that detects the concentration of flue gas in the flue, an exhaust gas temperature sensor that measures the temperature of the exhaust gas in the flue, and a concentration signal from the flue gas concentration sensor are integrated, and the integrated value is calculated in advance. When the set value exceeds the set value, and the temperature signal from the exhaust gas temperature sensor exceeds the set value set in advance, a soot adhesion signal indicating that soot has adhered to the heat transfer surface is output, and the temperature signal is An arithmetic and control unit that outputs a scale adhesion signal indicating that scale has adhered to the heat transfer surface when the integrated value of the concentration signal exceeds the set value and is less than or equal to the set value. Is.

[0008]

According to one aspect of the present invention, the concentration signal from the smoke concentration sensor provided in the flue is input to the arithmetic control device, and the arithmetic control device integrates the concentration signals. When the preset value is exceeded, a soot attachment signal indicating that soot has adhered to the heat transfer surface of the boiler can be output.

According to another aspect of the present invention, the concentration signal from the exhaust gas concentration sensor provided in the flue and the temperature signal from the exhaust gas temperature sensor are input to the arithmetic and control unit, and this arithmetic and control unit is used. The concentration signal is integrated, and when the integrated value exceeds a preset value, and when the temperature signal exceeds a preset value, a soot adhesion signal is output,
When the temperature signal exceeds the set value and the integrated value of the concentration signal is less than or equal to the set value, the scale adhesion signal can be output.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of a heat transfer surface contamination detecting device in a boiler according to the present invention will be described below with reference to the drawings.

A combustion chamber 2 is formed at the center of the boiler 1, and an end of the combustion chamber 2 is connected to a boiler exhaust gas flue 3. A burner 4 is arranged in the combustion chamber 2, and fuel is supplied to the burner 4 via a valve 5.

A smoke concentration sensor 6 and an exhaust gas temperature sensor 7 are attached to the flue 3, and the smoke concentration sensor 6 and the exhaust gas temperature sensor 7 are connected to an arithmetic and control unit 8. The arithmetic and control unit 8 includes an exhaust gas temperature setting device 9 and an integrated concentration setting device 10.

Next, the operation of the heat transfer surface contamination detecting device in the boiler constructed as described above will be described.

[0014] When the operation of the boiler 1 is started, flue gas concentration sensor 6 detects the concentration of flue gas, and outputs a density signal S _V, the density signal S _V is inputted to the arithmetic and control unit 8.
The concentration signal S _V is integrated by the arithmetic and control unit 8 over time from the first boiler operation and then integrated. When the boiler 1 is operated, the integrated value of this concentration can be used as the degree of soot adhesion. Then, the heat transfer on the heat transfer surface of the boiler is deteriorated, the exhaust gas temperature rises, the temperature signal S _T from the exhaust gas temperature sensor 7 becomes a set value preset by the exhaust gas temperature setter 9, and the concentration signal S _When the integrated value of _V exceeds the preset value set by the integrated concentration setting device 10, the calculation control device 8 outputs the soot adhesion signal S _AC due to the deterioration of the heat transfer characteristics due to the soot adhesion.

On the other hand, if the integrated value of the concentration signal S _V does not exceed the predetermined value even if the temperature signal S _T from the exhaust gas temperature sensor 7 reaches the above-mentioned set value, it is not soot adhesion, but another heat transfer characteristic. Since it can be determined that the deterioration is caused, that is, scale adhesion, the arithmetic and control unit 8 outputs the scale adhesion signal S _AS .

The set value of the integrated concentration differs depending on the can wall temperature of the boiler can body, the structure of the boiler, the gas flow velocity of the combustion gas, etc., and is therefore set according to the characteristics of the boiler. Also, the set value of the exhaust gas temperature is set higher than the exhaust gas temperature in the state without soot and scale in the boiler can,
It is usual to set the temperature to about 20 to 50 ° C.

In the above example, the integrated value of the smoke concentration is added by time integration, but the product of the fuel flow rate and the concentration, or
It is self-evident that the accuracy can be improved by using the product of the exhaust gas flow rate and the concentration.

Further, in order to reduce an error when the exhaust gas stagnates in the flue 3, a combustion signal may be input to the arithmetic and control unit 8 so that the boiler integrates the concentration only during combustion. Further, the soot adhesion alarm may be output only by the integrated concentration without the exhaust gas temperature.

[0019]

As is apparent from the above description, according to the dirt detecting device for the heat transfer surface of the boiler of the present invention, the heat transfer of the boiler can be performed without stopping the operation of the boiler and visually observing the inside of the boiler can. It is possible to detect dirt such as soot and scale attached to the surface.

Further, according to the present invention, by detecting the exhaust gas concentration in the flue and the exhaust gas temperature, whether the dirt on the heat transfer surface of the boiler is due to the attachment of soot or scale. Can be determined.

[Brief description of drawings]

FIG. 1 is an explanatory view showing the basic configuration of an embodiment of a heat transfer surface contamination detection device in a boiler according to the present invention.

[Explanation of symbols]

 1 Boiler 2 Combustion chamber 3 Flue 4 Burner 6 Smoke concentration sensor 7 Exhaust gas temperature sensor 8 Calculation control device 9 Exhaust gas temperature setting device 10 Integrated concentration setting device

Claims (2)

[Claims] 1. A boiler equipped with a combustion device and a flue of combustion gas, wherein a flue gas concentration sensor for detecting flue gas concentration in the flue gas and a concentration signal from the flue gas concentration sensor are integrated. , If this integrated value exceeds the preset value,
And a controller for outputting a soot adhesion signal indicating that soot has adhered to the heat transfer surface, and a dirt detection device for the heat transfer surface in a boiler. 2. A boiler provided with a combustion device and a flue of combustion gas, and a flue gas concentration sensor for detecting the concentration of flue gas in the flue, and an exhaust gas temperature for measuring the temperature of exhaust gas in the flue. When the sensor and the concentration signal from the smoke concentration sensor are integrated, and the integrated value exceeds a preset set value, and the temperature signal from the exhaust gas temperature sensor exceeds a preset set value, heat transfer is performed. A soot adhesion signal indicating that soot has adhered to the surface is output, and when the temperature signal exceeds the set value and the integrated value of the concentration signal is less than or equal to the set value, the scale has adhered to the heat transfer surface. A heat transfer surface contamination detection device, comprising: an arithmetic and control unit that outputs a scale adhesion signal indicating