RU172606U1 - DEVICE FOR REMOVING COMMODITY WATER FROM THE RESERVOIR - Google Patents

Abstract

A device for removing “bottom water” located in the lower part of the bottom of the oil reservoir, in the zone of accumulation of bottom water, is connected by automatic communication with an oil-water interfacial position sensor, analyzer A, flow regulator and control unit BU. Additionally, the device contains a vertical pipe with a height equal to the height of the tank, and the lower base of the vertical pipe has the shape of the bottom of the tank and is rigidly attached to it. Along the perimeter of the vertical pipe in its lower and upper parts at least one through cut is made, intended for circulation inside the vertical pipe of oil and oil products containing "commercial water". An automatic shutter is provided in the tank at the bottom of the “discharge” pipeline of “produced water”, located and connected by automatic communication with an oil-water interfacial position sensor, analyzer A, a flow regulator and a control unit BU, designed to automatically shut off the drainage pipeline “ commercial water. " The bottom water discharge pipe is located in the separation pipe body, one end of which is located at a distance h from the bottom center O, and the other is fixed in the side wall of the tank and connected through the analyzer A to the flow regulator of the bottom water. 1 ill.

Description

The utility model relates to devices for storing oil and oil products and can be used to remove produced water from the tank.

Known vertical cylindrical tank containing a base, a bottom, a cylindrical wall, in the upper part of the guides of which are pumping units connected by a pipe to heat exchange and intake pipes mounted on the wall at an angle of 45 ± 1500 °, and nozzles are fixed in the lower part of the guides [patent RU No. 22205145 dated November 27, 2003], the disadvantage of which is the formation of stagnant zones of accumulation of "produced water" in the most loaded sections of the bottom and the walls of the tank. Due to the fact that the transported (stored in the tank) oil contains sulfur, which is highly soluble in water, commercial water is a weak solution of sulfuric acid, the mass fraction of sulfur in oil (for various types of oil) according to GOST 1437-75 is in the range from 0.6 to 3.5, which is the main disadvantage of the known devices, because the bottom and bottom walls of the tanks, which contribute to the accumulation of "produced water" in the stagnant zones (with uneven subsidence of the base during operation), undergo accelerated corrosion.

Closest to the claimed technical solution is a device for removing produced water from the tank [patent RU No. 2151321 from 06.16.2014]. The tank for storing oil and oil products is made in the form of a cylindrical metal body with a bottom. The bottom of the tank is made in the form of a cone with the top of the cone O, and the lateral surfaces are directed with a slope from the periphery of the border of the base of the cone to the top of the cone O at an acute angle, the top of the cone O is the center of the bottom of the tank. At the bottom of the bottom of the tank, in the zone of accumulation of "produced water", there is an oil-water interface position sensor for determining the degree of selection and quality of treatment of "produced water", and a pipeline for "pumping out" of produced water "located in the housing reservoir, one end of which is located at a distance h from the center of the bottom, and the other is fixed in the side wall of the reservoir and through the analyzer is connected to a pumping unit for pumping, which in turn is connected by a pipeline to the flow regulator of "produced water". The shape of the pipeline can be different, the main requirement for it: ensuring the suction of "produced water" from the accumulation zone. The pumping unit for pumping, the regulator of the flow rate of “produced water”, the analyzer and the position sensor of the interphase level “Oil-water” are connected by electrical communication with each other and with the automatic control unit designed to control the pumping of “produced water”.

The objective of the utility model is to create a design that can reduce corrosion in the stagnant zones of the tank, increase the operational reliability and durability of the tank, minimize the cost of removal of "produced water".

This technical result is achieved in that the device for removing "commercial water" for storing oil and oil products further comprises a vertical pipe with a height equal to the height of the tank. The lower generatrix of the vertical pipe follows the shape of the tank bottom and is rigidly attached to it. Along the perimeter of the vertical pipe in its lower and upper parts, at least one through cut is made, intended for circulation of oil and oil products containing “produced water” inside the pipe. An automatic shutter is located in the lower part of the "discharge" pipeline of "produced water" in the tank, which is located and connected by automatic communication with the position sensor for the oil-water interphase level, analyzer A, a flow regulator and a control unit BU, designed to automatically shut off the discharge pipeline " commercial water. " The discharge pipe of "produced water" is located in the body of the separation pipe, one end of which is located at a distance h from the center O of the bottom, and the other is fixed in the side wall of the tank and connected through the analyzer A to the flow regulator of "produced water".

The drawing shows a General view of the proposed device for removing commercial water.

A device for removing produced water from the tank is made in the form of a cylindrical metal body 1, located in the lower part of the bottom of the tank 2, in the accumulation zone of "produced water" H1. The bottom is made in the form of a cone with the top of the cone O, the lateral surfaces of which are directed with a slope from the periphery of the border of the base of the cone to the top of the cone O at an angle α, the top of the cone O is the center of the bottom of the tank. The device additionally contains a vertical pipe 3 with a diameter D1 of a height equal to the height of the tank, the lower generatrix of the pipe follows the shape of the bottom 2 and is rigidly attached to it. Vertical pipe 3 is designed for the accumulation of "produced water". Along the perimeter of the vertical pipe 3, in its lower and upper parts, at least one through cutout 4 is made, intended for circulation inside the vertical pipe 3 of oil and oil products containing “bottom water”, and a “drain” pipeline of “bottom water” 5, with a diameter d2 and a length greater than the radius of the tank. The oil-water interfacial level sensor 6 is designed to determine the degree of selection and the quality of treatment for “produced water”. The pipeline "drain" of "produced water" 5 is located inside the vertical pipe 3, and one end is located at a distance h from the center of the bottom 2, and the other is fixed in the side wall of the tank and connected through an analyzer A 8 to the flow regulator of "produced water" 9. Automatic the shutter 7, designed to automatically shut off the pipeline for removal of "produced water", is located at the bottom of the pipeline "drain" of "produced water" 5 and is connected by automatic communication with the position sensor of the oil-water interphase level b, and analyzer A, flow regulator and control unit БУ 10, which allows to reduce the contact time of “produced water” with the tank, and therefore, to reduce corrosion in the stagnant zones of the tank, to increase the operational reliability and durability of the tank. Replacing expensive pumping equipment with an automatic shutter will minimize the cost of removing “produced water”.

The device operates as follows.

In the lower part of the reservoir with a diameter of D, stagnant zones of accumulation of “produced water” H1 are formed. Since the specific gravity of oil is less than the specific gravity of water ["Handbook of an engineer for the operation of oil and gas pipelines and product pipelines" edited by Zemenkova Yu.D. Publisher: Infra-Engineering, 2006, 928 p., P. 48], then “produced water” is maximally concentrated in the cavity of the vertical pipe 3, into which it falls under the action of static forces through the through-cuts 4. In the cavity of the vertical pipe 3, there is an oil-water interfacial position sensor 6. In the presence of “produced goods” water ”in zone H1, the oil-water position sensor 6 is activated and sends a signal to the control unit BU 10, which in turn opens the automatic shutter 7, through which static goods are diverted dy ”from the tank through the pipeline“ drain ”of“ produced water ”5, one end of which was located at a distance h from the center of the bottom O, to ensure the removal of“ produced water ”from the accumulation zone“ H1 ”, and the other is hermetically fixed in the side wall of the tank and through the analyzer "A" 8 is connected to the flow rate controller of "commercial water" 9, and the flow rate controller of "bottom water" 9, the analyzer A 8 and the position sensor of the oil-water interphase level 6 are connected by electrical communication with each other and with the automatic control unit "BU" 10. Pumped out “Commercial water” passes through the analyzer A 8 to determine the degree of selection and purification quality of “commercial water” and sends a signal to the control unit BU 10 to close the automatic shutter 7 and analyzes the presence of “commercial water” in the pipeline for “removal” of commercial water 5 .

This technical solution allows, in comparison with the prototype, to eliminate the formation of stagnant zones in the most loaded areas of the bottom and wall, to reduce the contact time of "produced water" with the tank, and therefore, to reduce the corrosion of metal and, thereby, increase the operational reliability and durability of the tank without using special pumps. And also the refusal to use expensive pumping equipment allows you to minimize the cost of removal of "produced water" from the tank.

Claims (1)

A device for removing "bottom water" for storing oil and oil products, located in a tank that contains a cylindrical metal body, a bottom that is a zone of accumulation of "bottom water" H1 and made in the form of a cone with the top of the cone O, and the side surfaces are directed with a slope from the periphery of the boundary of the base of the cone to the top of the cone O at an angle α, the top of the cone O is the center of the bottom of the tank, the pipeline "drain" of "produced water", diameter d2 with a position sensor for the oil-water interface determine the degree of selection and quality of treatment of "produced water", the regulator of the flow of "produced water", the analyzer and the position sensor of the interphase level "Oil-water" are interconnected by an electrical connection with the automatic control unit BU, characterized in that it further comprises a vertical pipe with a height, equal to the height of the tank, and the lower generatrix of the vertical pipe repeats the shape of the bottom of the tank and is rigidly attached to it, and along the perimeter of the vertical pipe at least one sk a bottom cut, intended for circulation inside the pipe of oil and oil products containing "bottom water", in addition, in the lower part of the pipeline "drain" of bottom water in the tank there is an automatic shutter located and connected by automatic communication with the oil position sensor -water "with analyzer A, a flow regulator and a control unit BU, designed to automatically shut off the pipeline for producing" produced water ", the pipeline for removing" produced water "is located in the casing of the separation pipe, one end of which is located at a distance h from the center O of the bottom, and the other is fixed in the side wall of the tank and is connected through the analyzer A to the flow regulator of produced water.

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