RU145939U1 - APPARATUS FOR WATER CLEANING FROM MECHANICAL IMPURITIES AND OIL PRODUCTS - Google Patents

Abstract

1. Apparatus for purifying water from mechanical impurities and petroleum products, including a horizontal cylindrical body with elliptical bottoms, mounted on two saddle supports, systems for the input of contaminated water and the outlet of purified water and pulp with mechanical impurities, as well as a cap for collecting petroleum products mounted on top of the apparatus body with an oil product outlet fitting, the apparatus comprising one or more fittings welded into one of the bottoms of the apparatus, to each of which a longitudinal manifold is attached with filter elements on it. 2. The apparatus according to claim 1, characterized in that the outlet fitting of the cap for collecting oil products is located in its lower part. 3. The apparatus according to claim 1, characterized in that it is additionally equipped with a system for backwashing the filter elements and collecting pulp. 4. The apparatus according to claim 1, characterized in that at least one coalescing partition is placed between the longitudinal collector and the housing. The apparatus according to claim 4, characterized in that inside the compartment created by the coalescing partition, the housing and two segments from the side of each of the bottoms, a purified water outlet system is located. 6. The apparatus according to claim 5, characterized in that it is additionally equipped with a system for backwashing the filter elements and collecting pulp. 7. The apparatus of paragraphs. 3 and 5, characterized in that the backwash system of the filter elements and the collection of pulp is placed outside the housing.

Description

The inventive utility model relates to equipment for purifying water from mechanical impurities and oil products and can be used in water recycling systems of oil refineries and petrochemical enterprises, in the energy sector, as well as for treating produced water at oil and water treatment units in the oil industry.

Closest to the proposed utility model is an apparatus for purifying water from mechanical impurities and oil products at oil refineries, containing a horizontal cylindrical body with elliptical bottoms, along the cylindrical part of which coalescing nozzles are installed, located along the longitudinal axis of the body on both sides of the center, forming two chambers , the walls of which are the nozzles themselves, the wall of the housing and four segments welded to the housing, on top of the cylindrical part of the housing found on the rear camera for the accumulation of oil [RF patent for utility model №112185 from 10.01.2012 g].

The disadvantage of this apparatus is the insufficient turnaround time due to the inevitable accumulation of mechanical impurities on the surfaces of coalescing hydrophobic nozzles, the need for stopping and taking the apparatus out of operation, as well as the high complexity of the maintenance of disassembling the apparatus due to the need for manual cleaning and washing of the nozzle .

The technical result of the proposed utility model, which coincides with the task solved in it, is to increase the period of the overhaul mileage of the proposed device and to simplify maintenance and repair work.

The specified technical result is achieved by the fact that in the apparatus for purifying water from mechanical impurities and oil products, including a horizontal cylindrical body with elliptical bottoms, mounted on two saddle supports, systems for the input of contaminated water and the output of purified water and pulp with mechanical impurities, as well as mounted on top the apparatus body is a cap for collecting oil products with an oil product outlet fitting, the apparatus comprising one or more fittings welded into one of the bottoms of the apparatus, to each of which attached a longitudinal manifold with filter elements mounted on it.

The specified technical result is also achieved by the fact that the outlet fitting of the cap for collecting oil products is placed in its lower part.

The specified technical result is also achieved by the fact that between the longitudinal collector and the casing of the apparatus is placed at least one coalescing partition.

The specified technical result is also achieved by the fact that inside the compartment created by the coalescing partition, the housing and two segments from the side of each of the bottoms, a purified water outlet system is placed.

The indicated technical result is also achieved by the fact that the apparatus is additionally equipped with a backwash system for filter elements and pulp collection.

The specified technical result is also achieved by the fact that the backwash system of the filter elements and the collection of pulp is placed outside the housing.

The essence of the utility model is illustrated in figures 1-7.

Figure 1 shows a longitudinal section of the apparatus, where: 1 - a horizontal cylindrical body; 2, 3 - elliptical bottoms; 4, 5 - supports; 6 - water inlet fitting; 7 - a longitudinal collector; 8 - filter elements; 9 - a cap for the collection of petroleum products; 10 - fitting for the withdrawal of petroleum products; 11 - level gauge; 12 - manhole.

Figure 2 shows an embodiment of the claimed apparatus with several parallel longitudinal collectors 7, with filter elements 8 placed on each of them, a collector for collecting purified water 13 and a water outlet fitting 14, 5 — support.

Figure 3 shows an embodiment of the inventive utility model with a coalescing partition, where 1 is a housing; 5 - support; 7 - longitudinal collectors; 8-filter elements; 13 - collector collecting purified water; 14 - water outlet fitting, 15 - coalescing partition.

Figure 4 shows another embodiment of the inventive apparatus with coalescing partitions, where 1 is a housing; 5 - support; 7 - longitudinal collectors; 8 - filter elements; 13 - collector collecting purified water; 14 - outlet fittings for purified water, 15 - coalescing partitions.

Figure 5 shows a schematic cross-sectional view of a horizontal apparatus with a coalescing partition, where 1 is a housing; 2, 3 - bottoms; 6 - water inlet fittings; 7 - longitudinal collectors; 8 - filter elements; 12 - manhole; 13 - collector collecting purified water; 14 - water outlet fitting; 15 - coalescing partition; 16, 17 - segments.

In Fig.6 shows a diagram of the backwash of the filter elements and pulp output in relation to the variants of the apparatus shown in Fig.3, 4, where 1 is the casing of the apparatus; 2 - bottom; 4 - support; 6 - water inlet fitting; 9 - a cap for the collection of petroleum products; 10 - fitting for the withdrawal of petroleum products; 11 - level gauge; 18 - distribution manifold; 19 - flow meter; 20 - shutoff valves; 21 - a sludge collector with a built-in filter; 22 - circulation pump; 23 - foundation, 24 - oil extraction line with air vent 25.

Fig. 7 shows in plan a wiring diagram of the arrangement of the pipelines of Fig. 6 (view B of Fig. 6) as applied to the embodiment of the apparatus shown in Fig. 3, where 1 is the apparatus body; 2 - bottom; 6 - water inlet fitting; 18 - distribution manifold; 19 - flowmeters; 20 - shutoff valves.

The proposed apparatus for purifying water from mechanical impurities and oil products (Fig. 1) contains a horizontal cylindrical body 1 with elliptical bottoms 2 and 3 mounted on saddle supports 4 and 5. A fitting 6 for welded contaminated water is welded into the bottom 2, to which longitudinal is connected a collector 7 with filter elements 8 mounted thereon.

An oil collecting cap 9 with fittings for oil output 10 and installation of a level gauge 11 is installed along the upper generatrix of housing 1. For convenience of service, a manhole 12 is embedded in the bottom 3.

In an embodiment of the apparatus, the cross-section of which is shown in FIG. 2, three longitudinal collectors 7 are installed in the apparatus with filter elements 8 installed on them. At the bottom of the apparatus is a collector for collecting purified water 13 with a water outlet fitting 14 connected to it.

Figures 3 and 5 show an embodiment of an apparatus for purifying water from mechanical impurities and oil products, comprising a horizontal cylindrical body 1 with elliptical bottoms 2 and 3 mounted on saddle supports 4 and 5. Three nozzles 6 are welded into the bottom 2 for introducing contaminated water , each of which is attached to the corresponding longitudinal collectors 7 with filter elements installed on them 8. Along the housing axis there is a settling-coalescing partition 15, closed from the ends by segments 16 and 17. Between the partition 15 and orpusom 1 disposed longitudinal manifold assembly 13 with the nozzle 14.

In an embodiment of the apparatus, the cross-section of which is shown in Fig. 4, longitudinal collectors 7 with filter elements 8 and two rows of coalescing baffles 15 are symmetrically placed along the housing axis. Between each coalescing baffle 15 and the housing 1 is placed along a collection manifold 13 with a fitting 14.

In the diagram of the organization of the process of washing the filter elements and collecting sludge, shown in Fig.6, 7, it is shown that the circuit includes a distribution manifold 16, from which a supply line with a flowmeter 19 and stop valves 20 is made to each of the fittings 6 in the bottom 2 of the housing 1. From each of the lines, an approach was made to the sludge collector 21, shown conditionally. Structurally, it can be made, for example, in the form of a bag filter, a basket with a removable mesh, in the form of a collector with a screw seal or in another design, depending on the specific operating conditions. The circulating pump 22 with lines for receiving water from the sludge collector and for its return to the circuit through the collector 18 is also included in the circuit.

A level gauge 11 is installed on the nozzle of the cap 9, an oil output line 24 with an air vent 25 is connected to the oil outlet nozzle 10 of the cap 9. For ease of maintenance, the apparatus is installed on the foundation 23.

The proposed apparatus (figures 1, 6, 7) works as follows.

The water to be cleaned is supplied to and from the collector 18 through flow meters 19 and nozzles 6 in the bottom of the apparatus to the longitudinal collectors 7, from which it enters the apparatus through the filter elements 8 from the inside out. Particles of mechanical impurities are trapped on the filter surfaces, and water is collected by the collector 13 and is discharged from the apparatus through the nozzle 14. When water passes through the sediment layer on the filter surfaces and the layer of filter material, coalescence of tiny droplets of oil products in water with the formation of a continuous oil film with a thickness commensurate with the size filter gaps. Oil, as a lighter phase, floats in water and eventually collects in the upper part of the apparatus and accumulates in the oil collecting cap 9. Since the outlet fitting 10 is located in the lower part of the shell in this cap, a gas cap always exists above the liquid in it. The level gauge, preferably radar, shows both the gas-liquid interface and the water-oil interface. The upper boundary of the oil product, i.e. the liquid level in the cap 9 at the initial start-up and set pressure is established using an air vent 25, and the lower boundary of the oil product is maintained by periodically withdrawing it through the nozzle 10 according to the readings of the level gauge 11.

The proposed apparatus (figure 1) works as follows.

The water to be cleaned is supplied to and from the collector 18 through flow meters 19 and nozzles 6 in the bottom of the apparatus to the longitudinal collectors 7, from which it enters the apparatus through the filter elements 8 from the inside out. Particles of mechanical impurities are trapped on the filter surfaces, and water is collected by the collector 13 and is discharged from the apparatus through the nozzle 14. When water passes through the sediment layer on the filter surfaces and the layer of filter material, coalescence of tiny droplets of oil products in water with the formation of a continuous oil film with a thickness commensurate with the size filter gaps. Oil, as a lighter phase, floats in water and eventually collects in the upper part of the apparatus and accumulates in the oil collecting cap 9. Since the outlet fitting 10 is located in the lower part of the shell in this cap, a gas cap always exists above the liquid in it. The level gauge 11, preferably radar, shows both the gas-liquid interface and the water-oil interface. The upper boundary of the oil product, i.e. the liquid level in the cap 9 at the initial start-up and set pressure is established using an air vent 25, and the lower boundary of the oil product is maintained by periodically withdrawing it through the nozzle 10 according to the readings of the level gauge 11.

The proposed apparatus (figures 1, 3, 4, 5) works as follows.

The water to be cleaned is supplied to and from the manifold 18 through flow meters 19 and fittings 6 in the bottom of the apparatus to the distributors 7, from which it enters the apparatus through the filter elements 8 from the inside out. Particles of mechanical impurities are trapped on the filtering surfaces, and water passes through the nozzle of the coalescing septum 15, is collected by the collector 13 and is discharged from the apparatus through the nozzle 14. When water passes through the sediment layer on the filtering surfaces and the layer of filter material, coalescence of tiny drops of oil products in water with the formation of a continuous oil film thickness commensurate with the size of the filter gaps. A further increase in the film thickness occurs when water passes through the nozzle of the coalescing baffle 15. Oil, as a lighter phase, floats in the water and eventually collects in the upper part of the apparatus and accumulates in the oil collecting cap 9. Since the outlet fitting 10 is located in the lower part of the shell , above the liquid in it there is always a gas cap. The level gauge 11, preferably radar, shows both the gas-liquid interface and the water-oil interface. The upper boundary of the oil product, i.e. the liquid level in the cap 9 at the initial start-up and set pressure is established using an air vent 25, and the lower boundary of the oil product is maintained by periodically withdrawing it through the nozzle 10 according to the readings of the level gauge 11.

On the surface of the filter elements, mechanical impurities that they retain are accumulated, and to maintain the required water flow through the apparatus, periodic regeneration of the filter elements 8 by backwashing is necessary (Fig. 6). To do this, close the fittings 20 on the water supply line to the washed collector 18 and open the fittings 20 on the line from this collector to the sludge collector 21. The purified water from the apparatus flows back through the filter elements 8, washes away the sediment that remains in the sludge collector 21. Pulp it thickens, and excess water is pumped again into the apparatus by pump 22. The collectors 7, attached inside the apparatus to the fittings 6, are washed alternately as filter elements are overgrown with trapped impurities.

An important role in the backwash process is played by a gas (or air) plug over the oil layer in the oil cap 9. It is well known that the liquid is practically incompressible and the volume of gas is inversely proportional to its absolute pressure. Therefore, when backwashing the filter elements 8, the gas cushion in the cap 9 performs the function of a damper, allowing it to gently wash away contaminants from them gently, without significant pressure surges in the system. Pressure surges in the system are extremely undesirable not only because of technological aspects, but also because of the danger of leakage of numerous flange connections during water hammer.

Since the main amount of suspended particles is delayed by filter elements, the overhaul run of the apparatus, determined mainly by the overgrowth of the nozzle of the coalescing partitions 15 with solid contaminants, significantly increases in comparison with the known analogues.

The location of the system of removal of mechanical impurities outside the device greatly simplifies maintenance, since it does not require stopping the device, steaming, washing and cleaning.

Thus, the claimed utility model provides an increase in the turnaround time and facilitates maintenance and repair of the apparatus.

Claims (7)

1. Apparatus for purifying water from mechanical impurities and petroleum products, including a horizontal cylindrical body with elliptical bottoms, mounted on two saddle supports, systems for the input of contaminated water and the outlet of purified water and pulp with mechanical impurities, as well as a cap for collecting petroleum products mounted on top of the apparatus body with an oil product outlet fitting, the apparatus comprising one or more fittings welded into one of the bottoms of the apparatus, to each of which a longitudinal manifold is attached with filter elements on it. 2. The apparatus according to p. 1, characterized in that the outlet fitting of the cap for collecting petroleum products is located in its lower part. 3. The apparatus according to claim 1, characterized in that it is additionally equipped with a backwash system for filter elements and collecting pulp. 4. The apparatus according to claim 1, characterized in that at least one coalescing partition is located between the longitudinal collector and the housing. 5. The apparatus according to claim 4, characterized in that inside the compartment created by the coalescing partition, the housing and two segments from the side of each of the bottoms, a purified water outlet system is located. 6. The apparatus according to claim 5, characterized in that it is additionally equipped with a backwash system for filter elements and collecting pulp. 7. The apparatus according to claims 3 and 5, characterized in that the backwash system of the filter elements and the collection of pulp is placed outside the housing.