KR0124179Y1 - Gas detecting device for calorie analyzer - Google Patents

Abstract

The present invention relates to a gas detection device of a calorimetry system for analyzing the heat of fuel gas.

That is, the present design prevents gas from leaking into the calorie analysis chamber due to the decrease in gas pressure, so that the gas is not leaked into the calorie analysis room, thereby preventing suffocation due to gas in advance for maintenance work or inspection work. The gas detected in the main gas pipe 10 reaches the calorimeter 30 at a constant pressure and in a short time, thereby rapidly adjusting the flow rate of COG through the calorie analysis and the valves 70 and 80 at the same time. By accurately obtaining the target temperature, it contributes to cost reduction and life extension of the coke oven, as well as energy saving and coke quality improvement.

Description

Gas detection device of calorimeter

1 is a schematic view showing the piping and gas flow of the present invention.

2 is a schematic view showing the piping and gas flow of a conventional apparatus.

* Explanation of symbols for main parts of the drawings

10: main gas pipe 11: pressure pipe

20: water separator 22: impurity removal device

30: calorimetry 110: gas pump

120: distribution pipe 121: gas blowing line

122: primary vent line 130: secondary vent line

140: pressure transmitter 150: electronic valve

The present invention minimizes the detection time of the gas required for calorie analysis in the calorimeter that analyzes the heat of fuel gas, and automatically removes the moisture contained in the detected gas, thereby reducing the waste of manpower and the gas leaked by the calorimeter. The present invention relates to a gas detection device of a calorimeter, which shuts off and maintains a constant flow rate and pressure of a detection gas to contribute to the speed and accuracy of calorie analysis.

In general, the method of controlling the heat of fuel gas used for coking coal in coke oven is COG (Coke Oven) with high calorific value of about 4400Kcal / N㎥ in BFG (Blast Furnace Gas) with low heat of about 750Kcal / N㎥. Gas) is mixed to control the heat amount of the fuel gas in accordance with their mixing ratio.

The calorific value of the mixed gas used in the coke oven is analyzed in the shortest time because the gas detected at the detection stage reaches the shortest time. The calories in will produce high quality coke.

That is, the fuel gas used in the coke plant is usually introduced BFG having a pressure of about 800mmH ₂ O to 300mmH ₂ O into the main gas pipe, the pressure of about 500mmH ₂ O to the main gas pipe. By forcibly pushing the COG, the gas mixed with these BFG and COG is used.The fuel gas mixed with the BFG and COG is combusted in the burner of the coke oven so that the heat of combustion generated is transferred to the carbonization chamber, To produce.

Conventionally, as shown in FIG. 2, a pressure pipe 11 for collecting sample gas is provided between the main gas pipe 10 through which the mixed gas of BFG and COG flows and the calorimeter 30, and the pressure pipe 11 ) Is a water separator 20 having a valve 21 for removing condensate from the inlet of the sample gas, an oxide removing filter 40, 40 ′, a ceramic filter 50, and a gas governor. Moisture in the sample gas introduced from the main gas pipe (10) to the pressure pipe (11) in order to remove the water from the water separator (20) is discharged through the condensate removal valve (21). The gas passes through the double oxide removal filter 40 (40 ') and the ceramic filter 50 to remove impurities, and then reaches the calorimeter 30 through the gas burner 60. Target calories and calories calculated from the process computer after analyzing the collected gases By comparing the heat amount analyzed by the stone system 30, the flow rate (rest time) of the gas supplied to the coke oven burner was set.

By the way, the conventional coke oven auto type burner is composed of 34 combustion chambers per oven, and every 20 minutes odd number (17) is supplied with gas and even number (17) with waste gas is discharged. Repeated operations such as odd-gas injection, even-waste gas discharge, even-gas injection, odd-waste gas discharge after 20 minutes, and alternately discharge gas through two batteries 90 and 90 '. To replace.

The coke oven is divided into 1A battery (66 doors) and 90B of 1B battery (66 doors) (90 ') in terms of production, and the 1A battery (90) is used for gas injection and waste gas replacement every 20 minutes. In order to prevent the simultaneous supply of gas to the 1B battery (90 ') and 1B battery (90) and 1B battery (90') is about 10 minutes apart to perform the gas replacement work.

Therefore, in the conventional apparatus, when the gas supply to one of the 1A battery 90 and the 1B battery 90 'is stopped during gas replacement, the pressure in the main gas pipe 10 suddenly rises and the gas is supplied. Since the elevated pressure is lowered, the gas pressure flowing through the pressure pipe 11 also increases or decreases the pressure in the pressure pipe 11 according to the pressure change in the main gas pipe 10, and also includes the dust contained in the detection gas. As impurities (COG contains a lot of carbon components) cause clogging of the pressure guiding pipe 11 flowing therein, water (condensed water) contained in the detection gas is separated from the water separator 20 and then accumulated in the water separator. The contents of the water separator 20 are narrowed to change the gas pressure, and when the condensate is accumulated in the water separator 20 in a large amount, the gas flow is completely blocked, and workers often adhere to the water separator 20. So you must remove the number who will results in a waste of time.

In addition, if the condensate removal valve 21 is incorrectly operated, the gas entering the calorimeter 30 leaks with the condensate and the gas supply is interrupted in the calorimeter 30 so that calorie analysis is not performed. Due to the increased COG flow rate, not only did the temperature rise, but also a large amount of gas leaked into the calorimetry chamber during the drainage of the condensate, which contained a risk of asphyxiation.

In addition, if the double oxide removal filter 40 (40 ') and the ceramic filter 50 installed to remove impurities contained in the detection gas are used for a long time, the filter may be clogged by impurities, causing a flow of gas. When the gas flows below the setting value, the flame of the calorimeter 30 is turned off, so that the detection gas is not burned and leaks into the calorie analysis chamber as it is.

In addition, the dual oxide removal filter 40, 40 ′ and the ceramic filter 50 installed to remove impurities contained in the detection gas have a battery replacement relationship between the 1 A battery 90 or the 1 B battery 90 ′. When the valve 100 is closed, the pressure of the main gas pipe 10 is increased. On the contrary, when the gas is normally supplied, the valve 100 is opened and the pressure of the main gas pipe 10 is lowered. Because it plays a role of stagnation, the time that the gas reaches the calorimeter 30 is as late as the filter blocks.

For this reason, when the gas detected in the main gas pipe 10 reaches the calorimeter 30, the detection time of the gas is delayed by the delay, and the control signal of the valve 80 of the instrument is delayed. The flow rate is higher or lower than the amount, and the consumption of calories is increased due to the rapid rise or fall of the low temperature, which shortens the lifespan of the cost and the life of the coke oven and also causes the quality degradation.

The present invention has been devised to solve this problem, and its purpose is to minimize the detection time of the gas required for calorimetric analysis, to automatically remove the moisture contained in the detection gas to shut off the gas leaked to the calorimeter, and the detection gas The flow rate and pressure are kept constant so that calorie analysis can be done quickly and accurately.

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

1 is a schematic view showing the piping and gas flow of the present invention.

As shown in the present invention, in the gas detection device provided with a pressure pipe 11 for collecting the sample gas between the main gas pipe 10 and the calorimeter 30 through which the mixed gas of BFG and COG flows, the pressure pipe The water separator 20 provided with the impurity removal device 22 from the inlet side of the gas on the conduit 11, the gas pump 110 for preventing the plug of the pressure pipe 11, and the pressure of the gas. In order to constantly adjust, the distribution pipe 120 having the gas vent line 121 connected to the calorimeter 30 and the primary vent line 122 provided with the gas burner 123 is installed in this order, and The gas ejection line 121 is provided with a secondary vent line 130 having an oxide removal filter 40, a ceramic filter 50, and a gas burner 60, in addition, and an oxide removal filter 40. And flows into the transmitter 140 and the pressure guiding tube 11 for detecting the pressure according to the blockage of the ceramic filter 50. Is a hayeoseo install the electronic valve 150, and, detector 160 of the central operator station for the blocking of tongip gas.

Referring to the operation and effect of the present invention configured as described above are as follows.

First, the sample gas introduced from the main gas pipe 10 into the pressure guiding pipe 11 is introduced into the impurity removal device 22 through the water separator 21 after the dust and impurities contained therein are automatically removed from the impurity removal device. As it is treated with, there is no volume change in the water separator, and the gas flows while maintaining a constant pressure at all times.

In addition, the gas pump 110 to prevent the clogging of the pressure pipe 11 due to the dust or impurities contained in the sample gas to ensure a smooth flow.

The distribution pipe 120 connects the gas ejection line 121 with the calorimeter 30 to guide the continuous gas supply, and the primary vent line 122 passes through the gas burner 123 to the gas ejection line. Keep the flow rate and pressure of the gas supplied constant.

The oxide removal filter 40 and the ceramic filter 50 remove impurities contained in the detection gas, and the secondary vent line 130 to which the gas burner 60 is attached includes the oxidation filter 40 and the ceramic filter ( 50) to smoothly flow the stagnant gas so that the gas detected at the detection stage of the main gas pipe 10 reaches the calorimeter 30 at a constant pressure and a short time.

Pressure transmitter 140 for measuring the gas pressure is installed at the rear end of the ceramic filter 50, when clogging occurs in the filter due to the long time use of the oxide removing filter 40 and the ceramic filter 50 at this time When the pressure is detected and the pressure falls below the control value, the alarm is issued through the alarm unit 160 of the central cab, and the driver is notified, and if the pressure does not rise even after a certain time, the electronic valve installed at the front of the water separator 20 is separated. Block 150 and at the same time control mode of the calorimeter in the central cab control instrument to switch from automatic to manual to prevent sudden increase or decrease in COG flow rate.

By this operation, the present design prevents gas from leaking from the calorimeter 30 due to the decrease in gas pressure, so that the gas does not leak into the calorie analysis room, thereby preventing asphyxiation accidents caused by gas during maintenance or inspection. In the coke oven, the gas detected in the main gas pipe 10 reaches the calorimeter 30 at a constant pressure and in a short time, thereby rapidly adjusting the flow rate of COG through the calorie analysis and the valves 70 and 80 at the same time. By accurately obtaining the target temperature according to the utilization rate, it contributes to cost reduction and the life extension of the coke oven, and also contributes to energy saving and coke quality improvement.

Claims (1)

In the gas detection device provided with a pressure pipe (11) for collecting the sample gas between the main gas pipe 10 and the calorimeter (30) through which the mixed gas of BFG and COG flows, on the pipeline of the pressure pipe (11) Moisture separator 20 equipped with an impurity removal device 22 from the inlet of the gas, a gas pump 110 to prevent clogging of the pressure pipe 11, and a calorimeter to adjust the pressure of the gas uniformly. A distribution pipe 120 having a gas vent line 121 connected to the 30 and a primary vent line 122 provided with a gas burner 123 is sequentially installed, and in the gas jet line 121. Oxide removal filter 40 and the secondary vent line 130, which is provided with a ceramic filter 50 and a gas burner 60, are sequentially installed, and an oxide removal filter is formed at the rear end of the ceramic filter 50. 40 and the transmitter 140 for detecting the pressure according to the clogging of the ceramic filter 50, the alarm in the central cab (16) 0) and the electrical connection, the gas detector of the calorimeter, characterized in that the pressure pipe 11 is provided with an electronic valve 150 for blocking the incoming gas.