RU201534U1 - OIL SEPARATOR - Google Patents

Abstract

The utility model relates to the field of oily wastewater treatment. The device contains a horizontal cylindrical body with elliptical bottoms and a central chamber, inlet and outlet nozzles, coalescing hydrophobic nozzles, located on both sides of the center and forming two side chambers, the walls of which are the nozzles themselves. Inside the side chambers there is a manifold for the product inlet, in the central chamber there is a collector of the clean water outlet system, in the lower part of the central chamber there is a hydraulic washing system for bottom sediment and a slurry outlet system, at the top of the cylindrical part of the body there is a chamber for collecting oil. In addition, the device contains other connecting and outlet fittings. The side chambers in their lower parts are equipped with additional systems for hydraulic washing of the bottom sediment and additional systems for removing the pulp, while the walls of the central chamber are equipped with easily removable panels from a hydrophobic nozzle for access to the side chambers. An increase in the running time for the implementation of preventive or repair work is provided and the time for their implementation is reduced. 1 wp f-ly, 4 dwg

Description

The utility model relates to the field of oily wastewater treatment and can be used in oil refining, petrochemical, chemical and other industries where it is necessary to purify wastewater from oil products that have entered the wastewater.

The closest in technical essence and set of essential features to the claimed utility model is an oil separator containing a horizontal cylindrical body with elliptical bottoms, mounted on saddle supports, one of which is fixed, the second is movable, with inlet and outlet collectors, inside the body, along its longitudinal axes are installed coalescing hydrophobic nozzles located on both sides of the center and forming two chambers, the walls of which are the nozzles themselves, the wall of the body and four segments welded to the body, inside the side chambers it is placed along the product inlet manifold, in the central chamber there is a collector of the clean outlet system water, in the lower part of the central chamber there is a hydraulic washing system of the bottom sediment, through which water is supplied under pressure and the bottom sediment is washed out and the pulp outlet system, consisting of a collector and fittings, at the top of the cylindrical part of the body there is a chamber for collecting oil ty, in which there are fittings for oil withdrawal, an oil-water interface sensor and an air vent, on the cylindrical part of the body and on the bottoms there are technological fittings and manholes, as well as fittings and couplings for the installation of control equipment instruments [Description of the utility model to the RF patent No. 112185 of 05/19/2011, IPC S02F 1/40, publ. 10.01.2012, Bul. one]. The present device is actively replicated, it is characterized by high reliability of operation and improved performance of treatment of oily waste water, while its design is quite simple and allows the bottom sediment to be washed out in the central chamber without stopping the apparatus.

Nevertheless, during the operation of the device at the bottom of its side chambers, a large part of solid deposits settle down, significantly reducing the working area of the coalescing nozzles, which requires a periodic shutdown of the device to carry out rather laborious and complex preventive and repair work to remove them. This contradicts the possibilities of hydraulic washing of the bottom sediment in the central chamber and its removal in the form of a slurry.

The problem to be solved by the present utility model and the achieved technical result is to create a reliable oil separator with an increased run time for preventive or repair work and a reduced time for their implementation.

To solve the problem and achieve the claimed technical result in an oil separator containing a horizontal cylindrical body with elliptical bottoms, mounted on saddle supports, one of which is fixed, the second is movable, with inlet and outlet collectors, inside the body, along its longitudinal axis, coalescing hydrophobic nozzles located on both sides of the center and forming two chambers, the walls of which are the nozzles themselves, the body wall and four segments welded to the body, inside the side chambers are located along the product inlet manifold, in the central chamber there is a collector of the clean water outlet system, in the lower part of the central chamber there is a bottom sediment hydraulic washout system through which water is supplied under pressure and the bottom sediment is washed out, and the pulp discharge system, consisting of a collector and fittings, at the top of the cylindrical part of the body there is a chamber for collecting oil, in which there are fittings for oil outlet, an oil-water interface sensor and an air vent, on the cylindrical part of the body and on the bottoms there are technological fittings and manholes, as well as fittings and couplings for installing control equipment, the side chambers in their lower parts are equipped with additional systems for hydraulic washing of the bottom sediment and additional systems for removing the pulp, while the walls of the central chamber are equipped with easily removable panels from a hydrophobic nozzle for access to the side chambers.

Additionally, easily removable panels on the walls of the central chamber are located on both sides of its center.

The utility model is illustrated by drawings, where:

in fig. 1 is a side sectional view of an oil separator;

in fig. 2 is a top sectional view of the oil separator;

figure 3 shows a section a-a of Fig. one;

in fig. 4 shows view B of FIG. 3 is a view of an easily removable panel for access to the side chambers of the oil separator.

The oil separator contains a horizontal cylindrical body 1 with elliptical bottoms 2, mounted on saddle supports 3 and 4, the first of which is fixed, and the second is movable. Along the cylindrical part of the body 1, coalescing nozzles 5 are installed, forming two equivalent side chambers 6 and 7, the walls of which are the nozzles 5 themselves, as well as walls 8 of the body 1 and four segments 9 at the ends, welded to the body 1. Between the side chambers 6 and 7 there is a central chamber 10, the walls of which are the same nozzles 5, four segments 9 and elliptical bottoms 2. Inside each of the chambers 6 and 7 there are collectors 11 of the waste water inlet system, in the lower part of the chambers 6 and 7 there are systems 12 for hydraulic washing, through the holes in which, under pressure, water is supplied and the bottom sediment is washed out and the bottom of the nozzles 5 is washed, and the collector 13 for removing slurry and sludge during the washing out period. In the central chamber 10 along its longitudinal axis there is a collector 14 for removing clean water, and in the lower part there is a system 15 for hydraulic washing of bottom sediment and a collector 16 for removing slurry and sludge. In the central chamber 10 on both sides of its center on each wall, consisting of nozzles 5, there are at least one easily removable panel 17 for access to the side chambers 5 and 6 when carrying out preventive or repair work. Above the cylindrical part of the body 1 there is a chamber 18 for collecting oil products, in which there are standard fittings for pumping oil, an interface level sensor and an air vent for communicating the inner cavity of the body 1 with the atmosphere. On the cylindrical part of the body 1 and the bottoms 2, there are standard technological fittings and manholes, as well as fittings and couplings for installing control equipment.

The oil separator works as follows.

Contaminated water with an oil content of not more than 100 mg / l enters its side chambers 6 and 7 and is evenly distributed throughout the volume of the apparatus through the collector 11.

Inside the oil separator, liquid flows move from the side walls 8 to the center of the apparatus through the coalescing nozzles 5. The average speed should not exceed 1.5 mm / s.

When passing through a layer of coalescing nozzles 5, the main part of oil products is deposited on them and, due to the density difference, floats upwards along them and forms a layer of oil product in the upper part of the apparatus and then in chamber 18, from which it is discharged as it accumulates into technological containers (conventionally not shown) ...

Suspended substances contained in the inlet waste water are deposited in the lower part of the side chambers 6 and 7 and the central chamber 10, and most of them are deposited in chambers 6 and 7.

To wash out the bottom sediment periodically, together or independently of each other, the bottom sediment erosion systems 12 and 15 are switched on. The washed out bottom sediment is discharged from the central 10 and side chambers 6 and 7 to the outside through the collectors 16 and 13, respectively.

Thus, the regular withdrawal of bottom sediment in the form of a slurry from the side chambers 6 and 7 provides a long-term, in comparison with the closest analogue, stable and reliable operation of an oil separator with an increased run time for carrying out preventive or repair work. In fact, in some cases, the oil separator is able to work without stopping until the scheduled maintenance. However, if a stop for preventive or repair work is deemed necessary, then the presence on the walls of the nozzles 5 of easily removable panels 17 for access to the side chambers 5 and 6 allows you to reduce the time spent on them.

The present technical solution of the oil separator can be implemented both on an independent, newly built device, and as a result of revision, for example, according to the results of planned repairs, of existing oil separators made according to the utility model according to the aforementioned RF patent No. 112185 or similar technical solutions.

As a result of solving this problem, a reliable oil separator was created with an increased run time for carrying out preventive or repair work and a reduced time for their implementation.

Claims (2)

1. Oil separator containing a horizontal cylindrical body with elliptical bottoms, mounted on saddle supports, one of which is stationary, the second is movable, with inlet and outlet collectors, coalescing hydrophobic nozzles are installed inside the body, along its longitudinal axis, located on both sides of the center and forming two chambers, the walls of which are the nozzles themselves, the body wall and four segments welded to the body, inside the side chambers it is located along the product inlet manifold, in the central chamber there is a collector of the clean water outlet system, in the lower part of the central chamber there is a bottom sediment hydraulic washing system through which water is supplied under pressure and the bottom sediment is washed out, and the slurry outlet system, consisting of a collector and fittings, at the top of the cylindrical part of the body there is an oil collection chamber, in which there are fittings for oil withdrawal, an oil-water interface sensor and an air vent , per cylindrical hour These housings and bottoms are equipped with technological fittings and manholes, as well as fittings and couplings for installing control equipment, characterized in that the side chambers in their lower parts are equipped with additional systems for hydraulic washing of the bottom sediment and additional systems for removing the slurry, while the walls of the central chamber equipped with easily removable panels made of hydrophobic attachments for access to the side chambers. 2. The oil separator according to claim 1, characterized in that the easily removable panels on the walls of the central chamber are located on both sides of its center.

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