CN218811536U - Novel petroleum gas separating device - Google Patents
Novel petroleum gas separating device Download PDFInfo
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- CN218811536U CN218811536U CN202223330190.2U CN202223330190U CN218811536U CN 218811536 U CN218811536 U CN 218811536U CN 202223330190 U CN202223330190 U CN 202223330190U CN 218811536 U CN218811536 U CN 218811536U
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Abstract
A novel petroleum gas separating device. The device consists of a water inlet valve, a water inlet pump, a flow and flow velocity sensor, an oil inlet pump, an oil inlet valve, a high-pressure cleaning device, a connecting pipeline wrapped by phenolic foam materials, a condensing device, an air suction pump, an air collection chamber, a pressure sensor b, a water outlet valve, a console, a digital collection processor, a control panel, a display screen, a waste discharge port valve, an electric heating net, a heat-sensitive sensor a, a pressure sensor a, a treatment pool, an ultrasonic detection system, a heat-sensitive sensor b and a standing pool. The device can accurately and efficiently separate petroleum gas. The utility model has the advantages of low cost, simple structure, energy saving, environmental protection, etc. Compared with the traditional separation device, the device has higher market promotion value, and solves the problems of low efficiency, heavy body type, complex structure and the like of the traditional separation device. Is more suitable for the production environment of modern factories.
Description
Technical Field
The utility model relates to a separator, in particular to novel separation petroleum gas device.
Background
Petrochemical refers to the processing industry that produces petroleum products and petrochemical products from petroleum and natural gas. In the petrochemical production process, petroleum gas is often used as a raw material. In this process, separation of the petroleum gas is required. Including both equilibrium separation and mechanical separation. The gas-liquid mixture with a certain composition can form a gas phase and a liquid phase with certain components at a certain pressure and temperature as long as the oil and the gas are fully contacted, and the phenomenon is called equilibrium separation. The liquid and gaseous phases formed are separated mechanically, referred to as mechanical separation. In addition, after the oil gas enters the storage tank, the impact force on the storage tank is large, unsafe factors of production are increased, and the oil gas is not suitable for being used in actual production. The traditional petroleum gas separation equipment has the defects of complex structure, poor operation condition adaptability, no safety measures, easy accidental injury to operators, poor separation effect, overlong separation time and the like. A number of difficulties are presented to the practical separation. Therefore, it is very important to develop a convenient, fast and simple separating device.
Disclosure of Invention
To the above problem, the utility model provides a novel separation petroleum gas device.
The utility model provides a technical scheme that its technical problem adopted is: the device consists of a water inlet valve, a water inlet pump, a flow and flow velocity sensor, an oil inlet pump, an oil inlet valve, a high-pressure cleaning device, a connecting pipeline wrapped by phenolic foam materials, a condensing device, an air suction pump, an air collection chamber, a pressure sensor b, a water outlet valve, a console, a digital collection processor, a control panel, a display screen, a waste discharge port valve, an electric heating net, a heat-sensitive sensor a, a pressure sensor a, a treatment pool, an ultrasonic detection system, a heat-sensitive sensor b and a standing pool. The electric heating net is positioned below the treatment pool, the heat-sensitive sensor a is positioned right above the electric heating net, the waste discharge port valve is positioned at the bottommost position on the right side of the treatment pool, the water inlet valve is positioned below the left side of the treatment pool, the water inlet pump is positioned on the left side of the water inlet valve, the flow velocity sensor is positioned on the left side of the water inlet pump, the oil inlet valve is positioned above the left side of the treatment pool, the oil inlet pump is positioned on the left side of the oil inlet valve, the flow velocity sensor is positioned on the left side of the oil inlet pump, the pressure sensor a is positioned on the right side of the treatment pool, the high-pressure cleaning device is positioned above the left side of the treatment pool, and the ultrasonic detection system is positioned above the right side of the treatment pool; the connecting pipeline wrapped by the phenolic foam material is connected with the standing pool rightwards; the standing pool is positioned at the right side of the treatment pool, the heat-sensitive sensor b is positioned in the middle of the left side of the standing pool, the condensing device is positioned at the upper left side of the standing pool, the pressure sensor b is positioned at the right side of the standing pool, and the water outlet valve is positioned at the lowest part of the right side of the standing pool; the air pump is connected with the air collecting chamber rightwards; the gas collection chamber is positioned on the right side of the standing pool; the console is positioned below the middle of the treatment pool and the standing pool, the display screen is positioned above the console, the control panel is positioned at the left lower part of the console, and the digital collection processor is positioned at the right lower part of the console.
The utility model has the advantages that: water is used as a heat carrier, so that certain organic compounds with lower boiling points cannot be damaged; the water is cheap and easy to obtain, and the generated steam is easy to separate from the petroleum gas after being cooled, so that the production cost is greatly reduced; the control console is adopted for operation, so that the possibility of injury of operators is reduced; a layer of phenolic foam material covers the connecting pipeline to achieve the purpose of heat preservation, and the phenomenon that liquid water wets the pipeline due to condensation of mixed gas in the pipeline is avoided.
Drawings
The present invention will be further described with reference to the accompanying drawings and examples.
Fig. 1 is a schematic structural diagram of the present invention.
In the figure 1, 1 is a water inlet valve, 2 is a water inlet pump, 3 is a flow and flow velocity sensor, 4 is an oil inlet pump, 5 is an oil inlet valve, 6 is a high-pressure cleaning device, 7 is a connecting pipeline wrapped by phenolic foam materials, 8 is a condensing device, 9 is an air pump, 10 is an air collecting chamber, 11 is a pressure sensor b,12 is a water outlet valve, 13 is a control console, 14 is a digital collecting processor, 15 is a control panel, 16 is a display screen, 17 is a waste discharging port valve, 18 is an electric heating net, 19 is a heat-sensitive sensor a,20 is a pressure sensor a,21 is a treatment pool, 22 is an ultrasonic detection system, 23 is a heat-sensitive sensor b,24 is a standing pool.
Detailed Description
As shown in figure 1, the utility model discloses by water inlet valve (1), intake pump (2), flow velocity sensor (3), oil feed pump (4), oil inlet valve (5), high pressure cleaning device (6), connecting tube (7) of phenolic foam material parcel, condensing equipment (8), aspiration pump (9), collection chamber (10), pressure sensor b (11), delivery port valve (12), control cabinet (13), treater (14) are collected to the digit, control panel (15), display screen (16), exhaust port valve (17), electric heat net (18), heat-sensitive sensor a (19), pressure sensor a (20), handle pond (21), ultrasonic detection system (22), heat-sensitive sensor b (23), pond (24) of stewing are constituteed. When in use, firstly, a proper amount of water and crude oil are respectively injected from the water inlet pump (2) and the oil inlet pump (4) through the water inlet valve (1) and the oil inlet valve (2), then, the data fed back by the heat-sensitive sensor a (19) and the data fed back by the pressure sensor a (20), the flow and flow velocity sensor (3) and the ultrasonic detection system (22) are collected and processed by a digital collection processor (14) on the console (13), the temperature of the electric heating net (18) and the entering amount of water and crude oil are respectively adjusted by using a control panel (15) to be visually displayed on a display screen (16), so that the transfer amount of gas and the entering amount of liquid are kept balanced, then the mixed gas enters a standing pool (24) through a connecting pipeline (7) wrapped by phenolic foam material, meanwhile, the data fed back by the heat-sensitive sensor b (23) and the data fed back by the pressure sensor b (11) are collected and processed by a digital collection processor (14) on the console (13), the power of the condensing device (8) is adjusted by a control panel (15) to separate the petroleum gas from the water, and controlling a switch of a water outlet valve (12) (when data fed back by the pressure sensor b is overlarge, opening the water outlet valve to discharge waste water), and finally discharging petroleum gas into the gas collecting chamber (10) through the air pump (9). After the work is finished, the high-pressure cleaning device (6) is opened, and after the cleaning is finished, the waste discharge port valve (17) is opened to discharge waste liquid. The utility model discloses with low costs, efficient, energy-concerving and environment-protective, convenient operation has reliable security, has solved traditional separator inefficiency, and the size is heavy, the complicated scheduling problem of structure.
Claims (1)
1. A novel petroleum gas separating device is composed of a water inlet valve, a water inlet pump, a flow velocity sensor, an oil inlet pump, an oil inlet valve, a high-pressure cleaning device, a connecting pipeline wrapped by phenolic foam materials, a condensing device, an air suction pump, an air collection chamber, a pressure sensor b, a water outlet valve, a control console, a digital collection processor, a control panel, a display screen, a waste discharge port valve, an electric heating net, a thermosensitive sensor a, a pressure sensor a, a treatment pool, an ultrasonic detection system, a thermosensitive sensor b and a standing pool, and is characterized in that the electric heating net is positioned below the treatment pool, the thermosensitive sensor a is positioned right above the electric heating net, the waste discharge port valve is positioned on the lowest right side of the treatment pool, the water inlet valve is positioned below the left side of the treatment pool, the water inlet pump is positioned on the left side of the water inlet valve, the flow velocity sensor is positioned on the left side of the water inlet pump, the oil inlet pump is positioned on the left side of the oil inlet valve, the flow velocity sensor is positioned on the left side of the oil inlet pump, the pressure sensor a is positioned on the right side of the treatment pool, the high-pressure cleaning device is positioned on the upper left side of the treatment pool, and the ultrasonic detection system is positioned on the upper right side of the treatment pool; the connecting pipeline wrapped by the phenolic foam material is connected with the standing pool rightwards; the standing pool is positioned on the right side of the treatment pool, the heat-sensitive sensor b is positioned in the middle of the left side of the standing pool, the condensing device is positioned on the upper left side of the standing pool, the pressure sensor b is positioned on the right side of the standing pool, and the water outlet valve is positioned on the lowest part of the right side of the standing pool; the air pump is connected with the air collecting chamber rightwards; the gas collection chamber is positioned on the right side of the standing pool; the control console is positioned below the middle of the treatment tank and the standing tank, the display screen is positioned above the control console, the control panel is positioned at the left lower part of the control console, and the digital collection processor is positioned at the right lower part of the control console.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202223330190.2U CN218811536U (en) | 2022-12-13 | 2022-12-13 | Novel petroleum gas separating device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202223330190.2U CN218811536U (en) | 2022-12-13 | 2022-12-13 | Novel petroleum gas separating device |
Publications (1)
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CN218811536U true CN218811536U (en) | 2023-04-07 |
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CN202223330190.2U Active CN218811536U (en) | 2022-12-13 | 2022-12-13 | Novel petroleum gas separating device |
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CN (1) | CN218811536U (en) |
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2022
- 2022-12-13 CN CN202223330190.2U patent/CN218811536U/en active Active
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