SU1575005A1 - Device for check and control of burning process and reprocessing of gaseous and liquid products - Google Patents

Abstract

The invention relates to the automation of technological processes and can be used to control and regulate mainly in the chemical, gas and oil refining industries, for example, in the combustion and processing of gas and petroleum products. The aim of the invention is to increase the reliability and reduce the labor intensity of production by connecting the valve body over the valve 9 through the first channel 13 with parallel small and large nozzles 11 and 12, as well as through the sensor 14 of the adjustable parameter with the outlet nozzle 3, and to the first channel 13 additionally connected is the second channel 27 with series-connected sensors 28 of monitored parameters and a low-flow dispenser 29 acting on the sensitive element 26 of the flame control sensor, rigidly o attached to the valve 23 of the large nozzle 12, and the valve 17 of the small nozzle 11 is attached to the trigger button 19 and the sensor 14 of the adjustable parameter is shunted by a hydraulic throttle. The start-up is performed by pressing the start button 19 with the valve 30 closed, which leads to the opening of the flow to the output under the influence of a small flow on the sensitive element 26. The control function is realized by stopping the flow of the small flow by the corresponding sensor 28, which leads to a complete shutdown of the flow to the exit. The control function is implemented by the sensor 14, stopping or resuming the flow to the outlet. 1 hp f-ly, 1 ill.

Description

The invention relates to the automation of technological processes and can be used mainly for automation in the oil refining gas and chemical industries, for example, during the combustion and processing of gas and oil products. 2

The aim of the invention is to increase reliability and reduce the complexity of production.

The drawing shows a structural diagram of the device. 2

The device for monitoring and regulation comprises a housing 1 with inlet and outlet nozzles 2 and 3 and a valve 4 located between them in the form of a cup with a seat 5. The valve is provided with a gasket 6 of the saddle, and its lateral surface forms a guaranteed clearance with the housing 7 in the form of a hydraulic throttle. An abutment 8 is attached to the valve, due to which a gap is maintained between the valve and the body in the highest position, which provides direct hydraulic connection of the supravalvular cavity 9 with the pipe 2 through the gap 7 and the subvalvular cavity 10. The valvular cavity through the first and second nozzles 11 and connected in parallel channel 12, channel 13 and sensor 14 of an adjustable parameter of the type nozzle ~ damper with tubes 15 is connected to the output pipe 3. In channel 13 between the tubes 15, depending on the operating mode, either a hydraulic resistor is installed Phenomenon 16, shunting the _t- sensor 14 of an adjustable parameter, or simply a plug (not shown) that locks channel 13 in this place. The first nozzle 11 is equipped with a shutter 17 with a stem 18, which is rigidly attached to the ₍ start button 19 with spring 20, ₍ through the washer 21 to the sealing rod gasket 22. The second nozzle 12 is equipped with a valve 23 with a rod with a seal 25, rigidly attached to the sensitive element 26 of the flame control sensor (bimetallic, dilatometric, etc.). A second channel 27 branches off from channel 13 with sequentially connected sensors 28 of controlled parameters of the nozzle-damper type and a small flow metering device 29 acting on the sensing element 26. The main flow metering device 31 is connected to the output pipe 3 through a tap 30. The nozzles 11 and 12 are made so that the area of the nozzle 11 is less than the area of the passage section of the nozzle 12.

A device for monitoring and regulation during automation of a technological process, for example, gas combustion, works as follows.

In the initial state, gas from the subvalve cavity 10 connected to the inlet pipe 2 through the gap 7 fills the supravalve cavity 9, since the nozzles 11 and 12 are closed by the shutters 17 and 23. Due to the weight of the valve 4 and the gas pressure exerted on it from above, the seat 5 is tightly closed and no gas enters the outlet pipe 3. The faucet 30 in front of the dispenser 31 of the main flow of gas supplied for combustion is closed, and the nozzles of the sensors of the controlled 28 and adjustable 14 parameters are held open by the corresponding sensitive elements.

To start the gas apparatus, it is necessary to press the button 19, while holding it, to ignite a small gas flow through the dispenser 29. Ignition is possible only with the valve 30 closed, which, if accidentally left open, will lead to a drop in gas pressure after the nozzle 11 to almost zero . This important property, which ensures safety during the ignition of the apparatus, is achieved by the choice of the diameter of the nozzle 11, which ensures the operation of the tol · to the dispenser 29 of the small flow. By the appropriate choice of the ratios of the nozzle 11 passage openings and the gap 7, it is also easy to achieve that when the nozzle 11 is opened, the pressure in the cavity 9 is practically unchanged and remains sufficient to hold valve 4 on the seat 5, excluding the flow output. Under the thermal action of a small flow, the sensing element 26 through the rod 24 will divert the shutter 23 from the nozzle 12, which will release the start button 19 without disrupting the flow of the small flow through the dispenser 29. Since the diameter of the nozzle 12 is chosen large enough, when opening the valve 30 cavity 9 drops sharply, the valve 4 moves away from the seat 5 by the action of the inlet pressure from below and the flow directly enters the main flow metering unit 31, igniting from a small flow due to the presence of fire (technological) communication between them.

The device control functions are implemented as follows.

If one of the controlled parameters is violated during the operation of the gas apparatus, the nozzle corresponds to. sensor 28 is closed by the flap of its sensing element, the small flow to the dispenser 29 and its effect on the sensing element 26 are stopped, which leads to the closing of the flaps 23 of the nozzle 12. B. cavity 9, the pressure increases to the input value due to leakage through the gap 7, due to which the valve 4 by force of weight and the resulting pressure drop 'on it, dropping down, tightly closes the seat 5, the flow to the main dispenser 31 also ceases, Thus, in case of violation one of the controlled parameters is a complete cessation of flow to both dispensers.

The device control function is implemented as follows.

When the adjustable parameter (temperature, pressure, etc.) reaches the set value, the sensor element 14 closes the nozzle with a shutter, which leads to a significant increase in pressure in the cavity 9, since the hydraulic resistance 16 and the resistance of the dispenser 29 are chosen sufficiently large compared to the resistance of the gap 7 Valve

4, having landed on the saddle 5, it stops the gas supply to the dispenser 31, which either switches to the small operating mode determined by the flow rate through the throttle 16, or completely stops operation if a plug is installed instead of the throttle 16 in the channel 13. When the adjustable parameter decreases below a predetermined value, the shutter of the sensor 14 opens the nozzle and the pressure in the cavity 9 drops, which causes the valve 4 to open the seat 5 and normal flow to the dispenser 31 is restored. Thus, the value of the adjustable parameter is maintained near the set value.

The operation of the device is turned off by closing the crane in front of it (not shown), after which the crane 30 should be closed.

Claims (2)

one (21) 4404204 / 24-06 (22) 09.02.88 (46) 06/30/90. Bksh. G, 1 24 (71) Design and Research Institute Mosgaeniiproekt (72) Oh. A. Ismiyev and R. E. Ismiyev (53) 621.182.26 (088.8) (56) Ragozin A. S. Bytov's apparatus on gas, liquid and solid fuels. - L .: Nedra, 1982, p. 121, p. 61. (54) DEVICE FOR THE CONTROL AND REGULATION OF THE PROCESS OF BURNING AND PROCESSING OF GAS AND LIQUID PRODUCTS (57) The invention relates to the automation of technological processes and can be used to control and regulate mainly in the chemical, gas and non-refining industries, for example, in the combustion and processing of gas and petroleum products. The aim of the invention is to increase the reliability and reduce the labor intensity of production by connecting the valve body 9 above the valve body through the first channel 13 with small and large nozzles II and 12 connected in parallel, and through an adjustable-parameter sensor 14 with the outlet 13 to the first channel 13 additionally connected is the second channel 27 with series-connected sensors 28 of monitored parameters and a low-flow dispenser 20, acting on the sensitive element 26 of the flame control sensor, the same Stko attached to the valve 23 of the large nozzle 12, and the valve 17 of the small nozzle II is attached (L  mtfk 27 & 1 / No. MLr-4L X - ,, - 1.,. 1T- is Ol J SL for Jf SL Lena to the start button 19 and the sensor 14 of the adjustable parameter is shunted by a hydraulic throttle. The start-up is done by pressing the start button 19 with the valve 30 closed, which leads to the opening of the flow to the output under the influence of a small flow on the sensitive element 26. Function The invention relates to the automation of technological processes and can be used primarily for automation in the oil and gas refining and chemical industries, for example, in the combustion and processing of ghat and petroleum products. The aim of the invention is to increase the reliability and reduce the labor intensity of production. The drawing shows the structural diagram of the device. The device for control and regulation includes a housing with inlet and outlet nozzles 2 and 3 and a valve 4 located between them in the form of a glass with a saddle 5. A sealing gasket 6 of the saddle is provided on the valve, and its lateral surface forms a hydrodischarge 7 with the housing. A stop 8 is attached to the valve, due to which, in the extreme upper position of the intergang, the valve and the body maintains a gap that provides a direct hydraulic connection between the nadcapane cavity 9 and the nozzle 2 through the gap 7 and the subslap cavity 10. The supravalve cavity through the first and second parallel connected the nozzle 11 and the channel 12, the channel 3 and the sensor 14 of the adjustable parameter tin; a nozzle; a valve with tubes 15 is connected to the outlet nozzle 3. In the channel 13 between the tubes 15, depending on the operation mode, a hydraulic coupling is installed The replenishment 16, shunting the sensor 14 of the adjustable parameter, or simply a plug (not shown) locking the channel 13 at this point. The first nozzle II is provided with a valve 17 with a rod 18 fixed to the trigger button 19 with a spring 20 (resting through the washer 21 on the gasket rod 22. The second nozzle 12 is equipped with a valve 23 with a rod The control is realized by stopping the supply of a small flow with an appropriate sensor monitoring 28, which leads to a complete shutdown of the flow of the output to the output. The control function is implemented by the sensor 14, stopping or resuming the flow to the outlet, 1 h. Clause 1 Il five 0 five 0 five 0 five 0 five 24 with a seal 25 rigidly attached to the sensitive element 26 of the flame control sensor (bimetallic, dilatometric, etc.). A second channel 27 branches off from channel 13 with sensors-controlled parameters 28 of monitored parameters such as a nozzle-valve and a small flow metering device 29 acting on the sensing element 26. Main flow metering device 31 is connected to outlet nozzle 3 via valve 30. Nozzles 11 and 12 are made so that the area of the nozzle 11 is smaller than the area of the flow area of the nozzle 12. A device for controlling and regulating the process automation, such as gas combustion, works as follows. In the initial state, the gas from the bonded cavity 10 connected to the inlet pipe 2 through the gap 7 fills the over-valve cavity 9, because the nozzles 11 and 12 are closed by the flaps 17 and 23. Due to the weight of the valve 4 and the pressure of the gas on top of it, the saddle 5 tightly closed at the weekend 3 gat nozzle does not arrive. The valve 30 in front of the dispenser 31 of the main stream of gas supplied for combustion is closed, and the nozzles of the sensors 28 and controlled 14 parameters are kept in the open position by the corresponding sensitive elements. To start up the gas apparatus, it is necessary to press button 19, holding which, to ignite a small gas flow through the dispenser 29. Ignition is possible only with the valve 30 closed, which, if left to chance, left open, will cause the gas pressure after the nozzle 11 to drop to almost zero. This important property, which ensures safety during ignition of the apparatus, is achieved by choosing the diameter of the nozzle 11, which ensures the operation of a small flow dispenser 29. Properly selecting the ratios of the nozzle orifices 1 and the gap 7 is also easy to achieve so that when opening the nozzle 11, the pressure in cavity 9 does not practically change and remains sufficient to hold valve 4 on the saddle 5, excluding the flow to the outlet. Under the thermal effect of a small flow, the sensitive element 26 through the rod 24 will retract the valve 23 from the nozzle 12, which will release the start button 19 without disturbing the flow of the small flow through the metering device 29. Since the diameter of the nozzle 12 is chosen sufficiently large, then when opening the valve 30, the pressure in cavity 9 drops sharply, valve 4 acts from the saddle 5 by the input pressure and flows directly to the main flow dispenser 31, igniting from a small flow due to the presence of fire between them (technological connection. The control functions of the device are implemented as follows. If one of the monitored parameters is violated during operation, the gas apparatus nozzle of the corresponding sensor 28 is closed by the valve of its sensitive element, the flow of a small flow to the dispenser 29 and its influence on the sensitive element 26 stops, which causes the nozzles 23 to close 12. Pressure in the cavity 9 increases to the input value due to a natskan through the gap 7, whereby kpapan 4 by force of weight and the resulting pressure drop on it, dropping, tightly closes the saddle 5, flow flow to the main The batcher 31 is also stopped. Thus, if one of the monitored parameters is violated, the flow to both metering devices is completely stopped. The device control function is implemented as follows. When the controlled parameter (temperature, pressure, etc.) reaches the specified value, the sensitive element of the sensor 14 closes the nozzle with a damper, which leads to a significant increase in pressure in cavity 9, since the hydraulic resistance 16 and the resistance of the dispenser 29 are chosen rather large compared to the resistance of the gap 7. Valve five ten 15 20 25 thirty 35 40 45 50 55 4, dropping to the saddle 5, stops the gas supply to the dispenser 31, which either switches to a small mode of operation, determined by the flow through the throttle 16, or completely stops working if instead of the throttles 16 in channel 13 a plug is installed. When the controlled parameter decreases below a predetermined value, the valve of the sensor 14 opens the nozzle and the pressure in the cavity 9 drops, which causes valve 4 to open the seat 5 and the normal flow to the dispenser 31 is restored. Thus, the value of the adjustable parameter is maintained near a predetermined value. The operation of the device is turned off by closing the valve in front of it (not shown), after which the valve 30 should be closed. A device for monitoring and controlling the process of burning and processing gaseous and liquid products, comprising a housing with inlet and outlet nozzles, a valve with a saddle and a supra valve cavity, a trigger button, a sensor a flame with a small product flow dispenser acting on a sensitive element, sensors of controlled and adjustable parameters such as a nozzle — a flap and a shut-off valve of the main product flow at the outlet, characterized in that, in order to increase reliability and reducing labor intensity, it additionally contains two nozzles with flaps, the flap of the first nozzle is attached to the trigger button, and the flap of the second nozzle is rigidly connected to the sensitive element of the flame control sensor, two canapes are made in the housing, the first of which is connected with an over-valve cavity and through an adjustable parameter sensor — with an outlet nipple; both nozzles and a second channel are connected in parallel to the first channel, and through sequentially installed sensors monitored The parameters are connected to a small flow metering device, and the flow area of the first nozzle is smaller than the flow area of the second nozzle. 1575005 78 2. The device according to claim 1, about tl and -sle, with which the sensor is said to be recalled in that it has an additional parameter, contains a hydraulic throttle