EA001683B1 - Device for controlling and monitoring the position of separation between water and oil product - Google Patents

Abstract

A device for controlling and monitoring the position of separation between water and an oil product, comprising an electrode with a cup in the bottom part filled with pure water, insulators of said electrode, characterized in that said device is provided with a screen in the form of a partially opened pipe, connected in the upper part with a flange having holes for fastening, one or several additional electrodes with cups in the bottom part covered with insulation and filled with pure water, which arranged inside the pipe and a purification system, wherein in the upper part of the protection screen a diaphragm ring with holes is provided enabling to rotate and to change the flow section said holes coincide with the holes made in the screen pipe, the purification system is designed in the form of one or a plurality of vertical pipes with holes arranged along the height of the pipes, the bottom end of each is designed toothed and mounted on a tapered baffling reflector, positioned on the pipe bottom, and the upper end is connected to a feed radial channel, made in the flange, and provided with a valve, the electrodes are different in length and positioned in two levels, the free ends are fastened in the flange by sealing glands, and at least one of the electrodes is provided with an additional cup with pure water, mounted on the level of the short electrode and its free end is fixed to the flange by a threaded connection.

Description

The invention relates to measuring technique and is intended for monitoring and signaling the position of the interface between the media water-oil product, generating a control signal and issuing it to the automatic control system of oil-water separator units and other systems.

Contact level sensors are known whose operating principle is based on the closure of an electrical circuit when the sensor electrodes are immersed in a controlled fluid.

A known level sensor of electrically conductive liquids containing an electrode rack associated with a container, the second electrodes in the form of rods placed inside cylindrical cartridges open from below. The electrode is insulated with a sleeve and sealed at the top of the cartridge.

Closest to the proposed design is a control device containing an electrode with a glass in the lower part filled with clean water, electrode insulators. As a second electrode, a container body is used, in which a controlled oil-water medium is located (USSR, AS No. 1442837 class. С 01Р 23/24).

The common disadvantages of known conductometric sensors include

- insecurity of electrodes from non-conductive film of oil products;

- use as the second electrode of the metal housing of the tank, in which the controlled oil-water medium is located, due to which the surface of the tank is covered with a film of oil product, and the interface of this film is constantly changing, and therefore, the distance between the electrodes also changes, which negatively affects the conductivity and stable operation of the sensor, the container body is constantly under electric potential (field), which negatively affects health and is dangerous for approx gunning staff;

- creation of electrically conductive bridges on electrode insulators due to salt deposition during prolonged exposure to mineralized water;

- the inability to remove deposits of salts, films of petroleum products and dirt from surfaces and the design of the sensor without dismantling it;

- insufficient protection of glasses with electrodes from the ingestion of suspended mechanical particles and a viscous oil-water emulsion;

- false operation of the sensor during the rolling of the ship.

The purpose of the invention is to increase the reliability of the device and eliminate the above disadvantages.

This goal is achieved by the fact that the known control device containing an electrode with a glass in the lower part filled with clean water, electrode insulators, is equipped with a protective shield designed to protect the electrodes and glasses from dirt in the form of a pipe partially open from below, connected to the flange in the upper part with perimeter holes for attaching it to the neck of the tank-reservoir in which the controlled oil-water medium is located, with one or more electrodes with cups in the lower part, coated on the outside and olyatorom filled with pure water and placed inside a tube and cleaning system intended to clean the electrodes from petroleum, salt deposits and mechanical particles. In the upper part of the protective screen, a diaphragm ring with holes matching the holes made on the screen tube is mounted with the ability to rotate and change the bore. Holes provide free transfusion of oil-water medium.

When the diaphragm ring is rotated along the generatrix of the screen circumference, the screen openings overlap, thereby changing the flow area for free flow of the oil-water medium. As a result, a screen with holes and a diaphragm ring with holes form a compensator for false responses of the device during rolling of the ship while protecting the electrodes with glasses from mechanical particles and a viscous oil-water emulsion. The cleaning system is made in the form of one or more vertical tubes with holes along the entire length, the lower end of each of which is made of gear and mounted on a conical bump - a reflector located at the bottom of the screen tube, and the upper one is connected to a radial feed channel made in the flange, and equipped with a check valve. The electrodes are made different in length, and the free end is fixed by means of gaskets-insulators in the flange, and at least one of the electrodes is equipped with an additional glass with clean water mounted at the level of the short electrode and the free end is fixed in the flange by means of a threaded connection.

The device can be made to control one level when electrodes with glasses of the same level are used in it, one of the electrodes being fixed in the flange without an insulator, and the other through an insulator gland.

When controlling two levels of media interfaces in a device, the upper sensor and the lower level sensor are combined in one housing. The design used electrodes with glasses of different levels, one of which is common to both sensors, mounted on the thread and provided with an additional glass of clean water mounted at the level of the short electrode, while the other electrodes are fixed in the flange by means of gaskets.

The drawing shows the design of the claimed device.

The device comprises a protective shield 1, which is a partially partially open pipe at the bottom, connected by screws with flanges 2 to the perimeter holes 3, intended for fastening it to the neck of the tank-reservoir in which the controlled oil-water medium is located, the electrodes 4 and 5 of the lower and upper levels, respectively, with glasses 6 and 7 of the lower and upper levels and electrode 8, common to both levels, with glasses 6 and 7 of the lower and upper levels.

The electrodes 4 and 5 of the lower and upper levels with a free end are fixed in the flange 2 by means of gaskets-insulators 9, and the electrode 8, common to both levels, is connected to the flange 2 by a threaded connection. At the upper end of the electrodes 4,5,8, terminals 10 are installed, which are protected by a terminal cover II with a retaining pin and a nut 12. The device also includes a cleaning system in the form of one or more vertical tubes 13 with small holes along the entire height and with a toothed lower end, which is mounted on a conical baffle-reflector 14 located at the bottom of the pipe of the screen 1.

The inner cavity of each of the tubes 13 is connected to a radial inlet channel 15, made in the flange 2 through a one-way valve 16 mounted on the upper end of the tube 13. In the upper part of the tube of the protective shield 1 there is a diaphragm ring 17 with openings 18 coinciding with the openings 19, made on the pipe. The diaphragm ring 17 can be fixed with screws 20.

The device is based on the electrical conductivity of water.

The device operates as follows.

Before starting work, the glasses of 6.7 electrodes 4,5 and 8 are filled with clean water, the flange 2 through the gasket is fixed to the neck of the separator or reservoir tank, in which the controlled oil-water medium is located, and to the electrodes 4, 5 and 8 through terminals 10 under the terminal lid II serves, in order to avoid polarization, an alternating voltage of 12-15 volts 50 Hz.

When the separator or container is filled with oil-water medium, the internal cavity of the screen is also filled, and with subsequent separation into oil and water, the space between the electrodes 4, 5 and 8 with glasses 6 and 7 is filled either with oil or water. In the environment of mineralized water-oil product in glasses 6 and 7 of electrodes 4, 5 and 8 there is always water protecting the sensitive part from the oil product, and when the phase separation level is increased, the mirror of the electrode glass is cleaned.

When filling the space between the electrodes 4, 5 and 8 with glasses 6 and 7, the electric gap closes, and as the oil-water interface drops, the oil product covers the mirror of the glasses (first upper and then lower) and the electric circuit opens and vice versa.

When rolling the ship and the associated separator or reservoir tank with a position monitoring and signaling device, the lens of the oil product separated from the water in them, trying to occupy a horizontal position, will move in a vertical plane with a certain amplitude and period depending on the pitching force, and the volume of oil in the inner cavity of the screen 1 will synchronously repeat the movement of the main lens of the oil, pouring out of the device or pouring into it through the holes 19 of the screen 1 and the holes 16 of the diaphragm ca 17 together forming compensator false alarm device when the ship rolling.

Compensation and protection against false positives when the ship is rocking in the device occurs due to the throttling of the oil product when it flows through the adjustable bore of the holes 18 and 19 when the diaphragm ring 17 is rotated relative to the screen 1 and then locked by screws 20.

By turning the diaphragm ring 17, based on the viscosity of the used oil product, we experimentally select such a cross-section of the holes 18 of the diaphragm ring 17 and the holes 19 of the screen 1 such that the time of flow of the oil product from the cavity of the device into the lens and vice versa is significantly behind the time of movement of the main lens of the oil product, and the amplitude fluctuations in the volume of oil in the cavity of the device is much less than the amplitude of the oscillations of the lens, which leads to a decrease in false responses of the device.

In the process of operation of the device on electrodes 4,5 and 8 with glasses 6 and 7, screen 1, glands-insulators 9, dirt, salts, and viscous components of oil products are deposited. To remove them, it is necessary to supply hot clean water through the channel 15 of the flange 2, the check valve 16, a vertical tube 13 with small holes along the entire height.

Part of the hot water, spraying and spinning in a spiral, washes away dirt, salts, oil products from the surfaces of the inner cavity of the screen 1, and the other part of the water, reflected from the conical baffle reflector 14 through the toothed end of the tube 13, is directed from the bottom up, washing away the dirt, salts and oil products through the holes 18 and 19 of the pitch compensator outside the device.

The invention provides a clear, reliable control of the position of the oil-water phase interface when the ship is rocking up to ± 30 ° for a period of 4-9 s and the device is cleaned of dirt, salts and viscous oil products without dismantling and disassembling it for a long time.

Claims (1)

CLAIM A device for monitoring and signaling the position of the water-oil product interface, containing an electrode with a glass in the lower part filled with clean water, electrode insulators, characterized in that it is provided with a screen in the form of a pipe partially partially open from below, connected to the upper part with a flange with mounting holes , one or more additional electrodes with cups at the bottom, coated with insulation and filled with clean water, which are located inside the pipe, and a cleaning system, while in the upper part of the protective the wound is installed with the ability to rotate and change the bore, a diaphragm ring with holes matching the holes made on the screen tube, the cleaning system is made in the form of one or more vertical tubes with holes along the entire height, the lower end of each of which is made toothed and mounted on a conical a baffle-deflector located at the bottom of the pipe, and the upper one is connected to the inlet radial channel made in the flange and equipped with a valve, while the electrodes are made different in length in the form Vuh levels, and the free end secured by a balling-insulators in the flange, and at least one of the electrodes is provided with additional glass with pure water, mounted at a short electrode, and the free end is fastened in the flange by a threaded connection.