WO2017092028A1 - Pressure control fixed value adjusting system based on torch operating condition - Google Patents

Abstract

A pressure control fixed value adjusting system based on a torch operating condition, comprising a fuel supply line (10), a Venturi burner (30) and a control valve (20) connecting to the fuel supply line (10), the control valve (20) being disposed on the fuel supply line (10) to control the valve opening for the fuel supply line (10), the control valve having a pressure control fixed value. The pressure control fixed value adjusting system comprises a controller (40) connecting to a torch operating condition sensor (50), the torch operating condition sensor (50) detecting the operating condition of the torch and sending the detected result to the controller (40), the controller (40) automatically adjusting, according to the detected results, the pressure control fixed value of the control valve (20).

Description

 Pressure control fixed value adjustment system based on torch operating conditions Technical field

The present invention relates to an ejector combustion apparatus, and more particularly to a pressure control fixed value adjustment system for an ejector combustion apparatus.

Background technique

In the petrochemical plant, the venting flare system can process the excess, harmful and unbalanced exhaust gas discharged from the production device in time, and can handle the test vehicle, the unqualified gas generated during the parking, and the large amount of gas instantaneously released during the accident to ensure the device. Normal and safe operation. Torch burning should maintain the stability of the flame. If the problem of flame extinction occurs, a large amount of toxic, corrosive, flammable and explosive gas will overflow and spread, which will not only cause casualties, pollute the environment, but also cause serious explosions. Fire. Moreover, if the combustion of the fuel is incompletely burned and inefficiently burned, a large amount of harmful emissions such as carbon monoxide, nitrogen oxides and the like will be generated.

The venting flare system typically employs an ejector-type combustion apparatus that uses several venturi burners to combust the gas. The opening or closing of the burner air supply valve is based on the pressure of the fuel. The control valve controls the maximum amount of fuel flowing through the valve. If the amount of fuel is exceeded, the currently open burner cannot effectively treat the excess amount, and the combustion is insufficient, resulting in a large amount of harmful emissions. Therefore, more control valves need to be opened to allow more burners to participate in the combustion.

technical problem

In view of the above, the present invention provides a pressure control fixed value adjustment system based on a torch operating condition that can solve at least one of the above problems.

Technical solution

The present invention provides a pressure control fixed value adjustment system based on a torch operating condition, comprising a fuel supply line, a control valve connected to the fuel supply line, and a venturi burner, the control valve being disposed at the fuel A supply line is provided to control the valve opening of the fuel supply line. The control valve has a pressure control fixed value. The pressure control fixed value adjustment system includes a controller and a torch operating condition sensor connection, the torch operating condition sensor detects an operating condition of the torch and sends a detection result thereof to the controller, the control The device automatically adjusts the pressure control fixed value of the control valve according to the detection result.

In an embodiment, the operating conditions detected by the flare operating condition sensor include one or more of local temperature, vibration, and noise of the flare. Wherein, when the torch operating condition sensor detects that the local temperature of the torch is higher than a predetermined temperature, the controller automatically reduces the fixed value of the pressure control of the control valve. The controller automatically reduces the pressure control fixed value of the control valve when the torch operating condition sensor detects that the vibration of the venturi burner is above a predetermined vibration amplitude. The controller automatically reduces the pressure control fixed value of the control valve when the torch operating condition sensor detects that the noise of the torch is above a predetermined noise value.

Beneficial effect

In summary, the present invention provides a pressure control fixed value adjustment system based on a torch operating condition, and the controller automatically adjusts the fixed value of the pressure control of the control valve according to the operating condition of the rear end, so that the load exceeds the burner load. Next, open more burners to participate in combustion, improve the combustion stability and environmental protection of the flare system.

DRAWINGS

1 is a simplified schematic diagram of a combustion system of an ejector burner.

2 is a schematic diagram of a pressure control fixed value adjustment system.

Embodiments of the invention

Before the embodiments are described in detail, it is understood that the invention is not limited to the details The invention may be embodied in other ways. Also, it will be understood that the phraseology and terminology used herein are for the purpose of description The words "including", "comprising", "having", and <RTIgt; </ RTI> <RTIgt; </ RTI> used herein are meant to include the items listed thereafter, their equivalents, and other additional items. In particular, when describing "a certain element", the invention does not limit the number of the elements to one, and may include a plurality.

1 is a simplified schematic diagram of a combustion system of an ejector burner including a fuel supply line 10, a control valve 20 coupled to the fuel supply line 10, and a venturi burner 30. The fuel supply line 10 delivers gas from a fuel source, such as an oil well, to the venturi burner 30 for combustion. The number of venturi burners 30 may be one or more, and the number is not limited. A control valve 20 is provided on the fuel supply line 10 to control the closing or opening of the fuel supply line. The fuel supply line 10 can have a plurality of branches, each of which is provided with one such control valve 20 and to which one or more venturi burners 30 are coupled. Figure 1 only schematically shows two branches.

The control valve 20 has a fixed value of pressure control. For a venturi burner designed to have a maximum amount of gas that can be processed. Therefore, if the pressure of the gas in the pipeline exceeds the fixed value of the pressure control, it means that the amount of gas in the pipeline has exceeded the maximum processing capacity of the connected venturi burner, and the venturi needs to open more branches. The burner burns the gas.

The control valve 20 controls the amount of fuel treatment by controlling the pressure. However, for different fuel types and compositions, even with the same pressure, the maximum processing capacity of the venturi burner is different because of the different impurities. Moreover, even the same fuel, due to different fuel temperatures, high altitudes, thin air, etc., will cause the actual maximum processing capacity of the burner to be different. In general, the pressure control fixed value of the control valve 20 is set at 0.8 MPa. The flare gas component includes different hydrocarbons such as H2, H2S, CO2 , N2, etc., the relative percentage of each gas is also constantly changing, which determines that the average molecular weight and density of the torch also changes, so the flow pressure changes. If the pressure control fixed value of the control valve 20 cannot be adjusted for different gas components to control the fuel processing amount, it is likely that the rear end burner may have an excessive temperature, excessive vibration, or excessive noise.

As shown in FIG. 2, in the embodiment, the pressure control fixed value adjustment system includes a controller 40 and a torch operating condition sensor 50. Controller 40 is coupled to flare condition sensor 50 and control valve 20. The torch operating condition sensor 50 detects an operating condition of the torch and transmits the detection result thereof to the controller 40, and the controller 40 automatically adjusts the pressure control fixed value of the control valve 20 according to the detection result.

The operating conditions detected by the flare operating condition sensor 50 include one or more of local temperature, vibration, and noise of the flare. For example, when the torch operating condition sensor 50 detects that the local temperature of the torch is higher than a predetermined temperature, the controller 40 automatically reduces the pressure control fixed value of the control valve 20 to reduce the fuel processing amount of the burner. Reduce the temperature. In this way, more control valves 20 are opened to allow more burners 30 to share the excess fuel amount.

When the torch operating condition sensor 50 detects that the vibration of the venturi burner is higher than a predetermined vibration amplitude, the controller 40 automatically reduces the pressure control fixed value of the control valve to reduce the fuel processing of the burner. The amount thus reduces the vibration. In this way, more control valves 20 are opened to allow more burners 30 to share the excess fuel amount.

When the torch operating condition sensor 50 detects that the noise of the torch is above a predetermined noise value, the controller automatically reduces the pressure control fixed value of the control valve to reduce the noise of the single burner. In this way, more control valves 20 are opened to allow more burners 30 to share the excess fuel amount.

In summary, the present invention provides a pressure control fixed value adjustment system based on a torch operating condition, and the controller automatically adjusts the fixed value of the pressure control of the control valve according to the operating condition of the rear end, so that the load exceeds the burner load. Next, reduce the amount of burner processing and turn on more burners to participate in the combustion. When it is detected that the temperature is too high, the vibration is too large or the noise is too large, it often indicates that the fuel treatment amount has exceeded the actual processing capacity of the burner, resulting in unstable combustion and a large amount of harmful emissions due to incomplete combustion. Therefore, the present invention can improve the combustion stability and environmental protection of the flare system.

The concepts described herein may be embodied in other forms without departing from the spirit and scope. The specific embodiments disclosed are to be considered as illustrative and not restrictive. Therefore, the scope of the invention is to be determined by the appended claims Any changes which come within the meaning and range of the claims are intended to be within the scope of the claims.

Claims (5)

1. A pressure control fixed value adjustment system based on a torch operating condition, comprising a fuel supply line, a control valve connected to the fuel supply line, and a venturi burner, the control valve being disposed on the fuel supply line To control the valve opening of the fuel supply line, the control valve has a pressure control fixed value, wherein the pressure control fixed value adjustment system includes a controller and a torch operating condition sensor connection, The torch operating condition sensor detects an operating condition of the torch and transmits a detection result thereof to the controller, and the controller automatically adjusts a fixed value of the pressure control of the control valve according to the detection result.
2. The fire control fixed value adjustment system based on a torch operating condition according to claim 1, wherein the operating condition detected by the torch operating condition sensor comprises one or more of local temperature, vibration and noise of the torch. One.
3. The fire control fixed value adjustment system based on a torch operating condition according to claim 1, wherein when said torch operating condition sensor detects that a local temperature of the torch is higher than a predetermined temperature, said controller automatically The pressure control fixed value of the control valve is lowered.
4. A torque control fixed value adjustment system based on a torch operating condition according to claim 1, wherein when said torch operating condition sensor detects that said venturi burner vibration is higher than a predetermined vibration amplitude, The controller automatically reduces the pressure control fixed value of the control valve.
5. The pressure control fixed value adjustment system based on a torch operating condition according to claim 1, wherein when said torch operating condition sensor detects that the noise of the torch is higher than a predetermined noise value, said controller automatically The pressure control fixed value of the control valve is lowered.