RU222499U1 - DEVICE FOR RECEIVING AND CLEANING SEAWATER - Google Patents

Abstract

The utility model relates to the field of shipbuilding, in particular to devices for receiving and purifying sea water. The technical result is to increase the efficiency of the device during use. The technical result is achieved due to the fact that in the device between the receiving grille and the filter element there are three partitions made of metal sheets with stiffening ribs for clarification of sea water, two lower partitions are rigidly fixed on the lower base of the sea chest, and the third is rigidly connected to the upper base Kingston box and centered between two lower partitions, while the lower partitions are installed below or at the same level with the Kingston to reduce hydraulic resistance, the filter element is rigidly fixed to the body of the Kingston box and is made in the form of a rectangular section, with a loading hydrophobic material made of foamed polystyrene with low density, with the possibility of replacing the loading, while the side walls of the section are made of metal mesh, the kingston box is hermetically connected to the pipeline for washing the filter element section, and in the kingston box above the filter element section there is a cover for replacing the section loading, rigidly fixed to the body of the kingston box , while the receiving grille, the walls of the filter element section and the partition are made of brass to prevent corrosion. 4 ill.

Description

The utility model relates to the field of shipbuilding, in particular to devices for receiving and purifying sea water.

A known device (RF patent No. 171492, 2017) is a settling tank - a filter for treating waste, recycled and natural waters, containing a settling tank with a flow zone, an inlet device, a sediment removal device and an outlet device made in the form of a tray of purified water, a filter with a floating granular load, located horizontally on supporting structures in the upper part of the flow zone of the settling tank adjacent to the outlet device, and limited by vertical walls impenetrable to water, and above and below by upper and lower horizontal meshes holding the granules of the floating load with the possibility of its expansion during washing , a system for washing a floating granular load, consisting of a system for periodically supplying air to the load and a system for periodically removing dirty wash water. The floating granular load is made of two layers and consists of high-pressure polyethylene granules of different shapes and sizes with a density of 890-950 kg/m, while the bottom layer is formed by ellipsoidal granules with a diameter of 4.5-7 mm and a thickness of 2.5-4 mm, the top layer is formed by round granules with a diameter of 3-5 mm, and the ratio of the height of the bottom layer to the height of the top layer is from 1:1 to 2:1, with a total height of the loading layer of 0.2-0.3 m. In the known device, filter modules operate in slow non-pressure filtration mode with a filtration speed of up to 3-6 m/hour, which is a disadvantage of this known technical solution due to low efficiency due to relatively low filtration rates, which require a significant increase in overall dimensions even with low device productivity and the possibility of deep clogging of the filter media, which requires an increase in energy costs to ensure the operation of the system with periodic flushing, which significantly complicates the operation of the device. The known device is complex in design due to the use of additional elements in the form of brushes sliding along the surface of the upper mesh when the truss rotates, with the ability to clean the upper mesh from biofouling, in particular algae, and installation of this device in ship compartments for receiving sea water is quite labor-intensive .

A device for purifying seawater is known (A.S. USSR No. 1139667, 1985), consisting of a kingston box with a receiving grille, a kingston and an air outlet pipe, a filter element placed between air baffles installed at an angle of 45-70° to the horizontal with a rise towards the air outlet pipe. However, the known device is unreliable in operation due to the low speeds of the received sea water and requires periodic regeneration of the system, which leads to significant operating costs.

The closest in technical essence to the proposed solution is a device for receiving and purifying sea water (A.S. USSR No. 867765, 1981), containing a receiving grid, a self-cleaning filter element, made integral with the hydraulic turbine and mounted on the receiving grid with the possibility of rotation , fixed rod, rigid supports, rod, bearings and regenerating slots. However, the known device complicates the work when the vessel is in shallow polluted waters. When using this invention, it is necessary to expend energy resources to ensure periodic or continuous regeneration of the filter element, which significantly complicates the water purification technology, and the deposition of mechanical impurities on the filter leads to high hydraulic loads. For preliminary water purification, a metal receiving grid is used, and many watercraft (vessels) also have a perforated metal sheet, which is subject to corrosion during operation.

The technical result is to increase the efficiency of the device when used.

The technical result is achieved by the fact that in a device for receiving and purifying sea water, containing a sea chest with a receiving grille, a sea chest, an air outlet pipe for separating and removing air from the incoming water, a hatch with a lid fixed on it, equipped with an ejector, a contaminant removal pipeline and filter element, additionally between the receiving grille and the filter element there are three partitions made of metal sheets with stiffening ribs to clarify the sea water, two lower partitions are rigidly fixed on the lower base of the kingston box, and the third is rigidly connected to the upper base of the kingston box and centered between two lower partitions, with the lower partitions installed below or at the same level with the kingston to reduce hydraulic resistance, the filter element is rigidly fixed to the body of the kingston box and is made in the form of a rectangular section, with a loading hydrophobic material made of low-density polystyrene foam, replaceable loading, while the side walls of the section are made of metal mesh, the kingston box is hermetically connected to the pipeline for washing the filter element section, and in the kingston box above the filter element section there is a cover for replacing the section loading, rigidly fixed to the body of the kingston box, while the receiving grid , the walls of the filter element section and the partition are made of brass to prevent corrosion.

The proposed device is shown in the drawing: Fig. 1 (general view), Fig. 2 (sectional view), Fig. 3 (general view of the filter element section with loading), FIG. 4 (general view of the partitions).

The device for receiving and purifying sea water contains a receiving grille 1, three partitions 2, made of metal sheets 3, limited by stiffening ribs 4, the width of the partitions depends on the design dimensions of the sea chest 5, to clarify the sea water, a filter element is rigidly fixed to the body of the sea water box 5 and is made in the form of a rectangular section 6, with a loading hydrophobic material made of low-density polystyrene foam 7, the side walls of section 6 are made of metal mesh 8, kingston 9, installed on the kingston line 10, and hermetically connected to the kingston box 5, pipeline for washing the section of the filter element 11, ejector 12, there is a contaminant removal pipeline 13, a cover 14 for replacing the loading section 6, rigidly fixed to the body of the sea chest 5, an air outlet pipe for separating and removing air from the incoming water 15, hatch 16, with a fixed covered with a lid 17, made in a sea chest 5, located above the waterline and used for repairing the device under operating conditions.

The proposed device works as follows.

The source sea water, contaminated with floated particles of soil and silt, enters through the receiving grid 1 installed in the body of the sea chest 5 and is subjected to rough mechanical cleaning. Then the water is supplied to the partitions 2, being purified from suspended mineral particles due to gravitational sedimentation. The efficiency of purification from mineral contents also depends on the length of time the sea water remains in the sea chest 5. This time is influenced by the depth of the flow part of the sea chest 5 and the hydraulic size of the deposited particles. Its smallest value is determined by the maximum inflow. When the section is oriented horizontally, its minimum is 30 seconds. Accumulated large mineral impurities entering through the receiving grid 1 are washed out through it as they accumulate. Then the water flows around partitions 2, which operate on the principle of a water seal, where the water is clarified by retaining smaller fractions and silt sediment. Then the clarified water is filtered through sections 6 of the filter element, with a floating loading hydrophobic material 7, which accumulates floating particles suspended in the water on its surface, and due to the hydrophobicity of the material, it prevents sludge from sticking. The sea water, cleared of suspended matter, is supplied to the needs of the craft through the open Kingston 9 via the Kingston line 10.

Sections 6 of the filter element with floating loading hydrophobic material 7 allow you to work with more contaminated water and at a high filtration rate, simplify loading regeneration, and in some cases, eliminate the use of additional pumps and tanks for wash water. If it is necessary to regenerate section 6 of the filter element with a floating load of hydrophobic material 7, water is supplied with a reverse current through the pipeline to wash the section of the filter element 11. Cleaning of the sea chest 5 from sludge contaminants is carried out by ejector 12 through the contaminant drainage pipeline 13. If necessary, dismantling sections 6 of the filter element, the kingston 9 is closed, the ejector 12 drains the structure of the kingston box 5, a visual inspection is carried out and the required section 6 of the filter element is replaced using the cover 14. Through the air outlet pipe 15, air is separated and removed from the incoming water. Through the hatch 16, with the cover 17 fixed on it, located above the waterline level, the device is repaired under operating conditions.

An example of a specific implementation.

Three partitions 2, made of brass sheets with a thickness of at least 5 mm - (GOST 15527-2004 Copper-zinc (brass) alloys processed by pressure, GOST 2208-2007 Foil, tapes, sheets and plates of brass. Technical conditions), provide preliminary cleaning sea water from large suspended matter within the hydraulic size range from 18.7 to 24.2 mm/s (linear dimensions - 0.2-0.25 mm), bottom sediments, as well as smaller fractions and silt sediment (SP 32.13330.2018 Sewerage External networks and structures, manual for SNiP 2.04.03-85 Design of wastewater treatment facilities).

Mesh metal sections of the filter element with loading make it possible to improve the quality of clarification of sea water. Loading hydrophobic material 7 is made of foamed polystyrene with low density (50-100 g/l) to ensure a floating state, granule size 10-25 mm (SP 31.13330.2021 Water supply. External networks and structures, https://www.ecovod. ru/barabannye-filtry-fpz/, M. G. Zhurba - water intake treatment facilities based on light (with a density less than the density of water) filter media - polystyrene foam, polystyrene foam, fibrous foam fibers, etc., https://aquatehserv.ru/ fbpz) and is placed in section 6 of the filter element between metal mesh 8 with holes 2-4 mm in size, made of brass (GOST 6613-86 Woven wire mesh with square cells. Technical conditions).

The advantage of the proposed device over the prototype is that the quality of reception and purification of sea water is improved by clarification through partitions operating on the principle of a water seal, and additional purification of water through sections of the filter element with hydrophobic material with low density and abrasion, high ability to wash, excluding energy consumption for washing the load. The device has a simple design and control circuit.

Positive effect - the proposed device allows the reception and purification of sea water during vessel operation and can be recommended for use in river and sea transport.

Sources of information taken into account

1. RF Patent No. 171492, 2017.

2. Auto. date USSR No. 1139667, 1985.

3. Auto. date USSR No. 867765, 1981 (prototype).

Claims (1)

A device for receiving and purifying sea water, containing a sea chest with a receiving grille, a sea chest, an air outlet pipe for separating and removing air from the incoming water, a hatch with a lid fixed on it, equipped with an ejector, a contaminant removal pipeline and a filter element, characterized in that Additionally, the device between the receiving grille and the filter element has three partitions made of metal sheets with stiffening ribs to clarify the sea water, two lower partitions are rigidly fixed on the lower base of the kingston box, and the third is rigidly connected to the upper base of the kingston box and centered between two lower partitions, with the lower partitions installed below or at the same level with the kingston to reduce hydraulic resistance, the filter element is rigidly fixed to the body of the kingston box and is made in the form of a rectangular section, with a loading hydrophobic material made of low-density polystyrene foam, with the possibility of replacing the load , while the side walls of the section are made of metal mesh, the kingston box is hermetically connected to the pipeline for washing the filter element section, and in the kingston box above the filter element section there is a cover for replacing the section loading, rigidly fixed to the body of the kingston box, while the receiving grid, The walls of the filter element section and the partition are made of brass to prevent corrosion.