SU1078198A1 - Device for measuring consumption of torch gases - Google Patents

Abstract

A DEVICE FOR MEASURING FLOW GAS FLOWS, containing sources of gas discharge, a flare pipeline, a bypass tube with a restricting throttle flow meter installed on it, and a flare, characterized in that, in order to improve the accuracy and sensitivity of the measurement, as well as reduce the flow of water vapor to the smokeless torch burning, it is equipped with a hydraulic lock located in the lower part of the torch into which the output ends of the flare pipeline and the bypass pipe are inserted at different depths, and the difference between Lubin dipping the ends of the flare pipe and the bypass pipe is greater than the ratio of the resistance of the bypass pipe with a narrowing device to the specific weight idrosis liquid (A creates 00;. about 00

Description

The invention relates to devices for measuring the flow rate of flare gases and can be used in flare installations of the refining, petrochemical and chemical industries. In chemical and oil refineries, a large amount of flare gases is generated, the flow rate of which varies widely. Under normal conditions of operation of the flare, it is used to burn off the stripping gases, gases coming through the leaks of the fittings and safety valves, etc. The amount of these gases is relatively small and for most torches it does not exceed 1-5 t / h. At the same time, accidental emissions of process plants amount to hundreds of tons per hour. Therefore, the task of measuring the flow rate of flare gases is rather difficult. At the same time, the measurement of the flow rate of flare gases is extremely necessary both from the point of view of metering, including for calculating air pollution, and from the point of view of saving water vapor supplied to smokeless gases. A device for measuring the flow rate of flare gases containing pneumometric tubes mounted on a flare is known; 1 N pipe, DMPK-4 differential pressure gauge and RZ-3 protection relay 1. The disadvantages of this device are low accuracy and sensitivity of measurement, because the pressure generated by a pneumometric tube due to low gas velocities in the flare pipeline at low flow rates does not exceed 1 mm of water. Art. In addition, the system does not allow measurement of the flow rate of contaminated and polymerized gases, as well as gases containing particles of condensate. The closest to the invention in technical essence and achievable. My result is a device for measuring the flow rate of flare gases, containing sources of gas discharge, a flare pipeline, parallel to which a bypass pipe is installed, equipped with a throttling device flow meter, and a flare 2. The drawbacks of the device are low accuracy and sensitivity of measurement at the reference flow rates, since the pressure drop in the throttle device is not higher than the flare pipeline resistance, and the latter, at low flow rates, does not exceed a fraction of mm water. Art. The measuring device is designed for a pressure of at least 16 mm of water. Art. The low measurement accuracy of the flare gas flow rate at nominal flow rates leads to an increased consumption of water vapor for the smokeless combustion of the flare, since water vapor in this case is supplied with a large excess. The purpose of the invention is to improve the accuracy and sensitivity of the measurement, as well as to reduce the consumption of water vapor for smokeless combustion of the plume. This goal is achieved by the fact that a device for measuring the flow rate of flare gases, containing sources of gas discharge, a flare pipeline, a bypass pipe with a restricting flow meter, and a torch installed at the bottom of the torch, into which output ends are inserted at different depths flare pipe and bypass pipe, while the difference between the depths of the ends of the flare pipe and the bypass pipe is larger than the ratio of the resistance bypass pipe with a narrowing device to the specific gravity of the hydraulic fluid trap. The drawing schematically shows a system for measuring the flow rate of flare gases. The device consists of apparatuses 1 (gas discharge sources), a flare pipeline 2, the output end of which is immersed in a hydraulic lock 3 located in the lower part of the flare 4. Parallel to the flare conduit 2, a bypass pipe 5 is installed on which the restriction device 6 is installed, flow sensor 7 throttle flow meter), the output of which is used to measure the flow rate of the secondary device 8 and programmatically control the supply of water vapor to the gas-static valve 9 of the flare 4. The output end of the bypass pipe 5 introduces in the water trap 3, wherein the difference between the depths of dipping the ends of the flare pipe 2 and the bypass pipe 5 is greater than the ratio of the resistance of the bypass pipe 5 with a narrowing device 6 to the specific weight of the fluid in the water seal. The output of the flow sensor 7 is connected via the software setpoint 10 to the reference chamber of the flow controller 11 controlling the flow of water through the valve 12. The flow controller 11 operates with the water flow sensor 13 and the restriction device 14. The device operates as follows. The flare gases from the apparatus 1 are diverted through the flare pipeline 2, lowered into the hydraulic lock 3 flares 4. The difference between the depths of the flare pipeline 2 and the bypass pipe 5 is equal to height h, which provides resistance to the hydraulic lock 1 Gb, where V is the specific weight of the hydraulic lock liquid. At low flow rates of flare gas, the latter passes through the bypass pipe 5 through the restriction device 6 of the flow sensor 7. Since the resistance of the water seal 3 is higher than the resistance of the bypass pipe 5 (including pressure drop in the restriction device 6) the flow of gas through the flare pipeline 2 is 34

Indoor, the flow sensor 7 measures the entire flow controller 11 of the flow rate controlling the flare gas flow at the nominal flow rate of water vapor through the valve 12. Regenerable. The output signal of the sensor 7 using the flow rate indicator II works with the sensor 13 to measure the flow rate of the secondary steam flow and the restriction device 8 and can be used by 14.

software control water supply -5 The device has high accuracy

steam (for smokeless flame) and measurement sensitivity. It allows the gas-static shutter 9 of the flare 4. It is necessary to measure the entire number of flare gates of the sensor 7 signal through software, as well as to reduce the consumption of water vapor

The setting device 10 enters the task chamber for the smokeless burning of the torch.

1078198

Claims (1)

DEVICE FOR MEASURING TORCH GAS FLOW CONSUMPTION, containing gas discharge sources, a flare pipe, a bypass pipe with a restriction device for the throttle flow meter and a torch installed on it, characterized in that, in order to increase the accuracy and sensitivity of the measurement, as well as reduce the consumption of water vapor for smokeless combustion flare, it is equipped with a water seal located at the bottom of the flare, into which the output ends of the flare pipe and bypass pipe are introduced at different depths, and the difference between the depth and dipping the ends of the flare pipe and the bypass pipe is greater than the ratio of the resistance of the bypass pipe with a narrowing device to the specific weight of the liquid water trap. J