CN219194595U - Oil-water separator for oil spill recovery - Google Patents

Abstract

The utility model discloses an oil-water separation device for oil spill recovery, which is characterized in that: the device include the main tank body, the inner chamber of main tank body is separated into first chamber, second chamber and third chamber by first baffle and the second baffle that are parallel to each other, be provided with the filter screen in the first chamber, be provided with the entry pipeline that links to each other with filter screen inside on the lateral wall of main tank body simultaneously, the overflow mouth has all been seted up on first baffle and the second baffle, and the overflow mouth on first baffle and the second baffle is located the both ends of main tank body width direction respectively, the third intracavity is provided with level sensor and lower level sensor, still is provided with the liquid level window on the lateral wall of third chamber simultaneously, still is provided with oil drain pipeline, manual oil drain pipeline, drainage pipeline and manual water drain pipeline that are linked together with the third chamber on the main tank body simultaneously, manual oil drain pipeline and manual water drain pipeline all are provided with manual valve, the drainage pipeline is provided with the solenoid valve then.

Description

Oil-water separator for oil spill recovery

Technical Field

The utility model relates to the field of oil-water separation, in particular to an oil-water separation device for oil spill recovery.

Background

With the increase of marine transportation and offshore oil exploitation scale, oil spill accidents happen at sea, and serious harm is brought to the marine environment. However, the current emergency equipment for oil spills is in a relatively lagging and starved condition.

The process of spilled oil recovery is generally to concentrate spilled oil by using an oil boom and then to transport the spilled oil to the vessel by means of a skimmer and an oil suction pump. However, the dirty oil conveyed to the ship is generally an oil-water mixture, and a large amount of seawater is contained in the dirty oil, so that if the dirty oil is directly conveyed to the cabin without oil-water separation, the utilization rate of the cabin is definitely reduced. After the oil-water mixture is conveyed to the shore through the spilled oil collecting ship, oil-water separation is needed, then the next purification treatment can be performed, time and labor are wasted, and the dirty oil treatment period and cost are further increased.

There is thus a need for a device that enables direct oil-water separation operations at sea to solve the above problems.

Disclosure of Invention

The utility model aims to solve the technical problems, and provides the device which has the advantages of simple structure, ingenious design and reasonable layout and can efficiently, quickly and widely realize oil-water separation operation.

The technical scheme of the utility model is as follows: the utility model provides an oil water separator is retrieved to oil spilling which characterized in that: the device comprises a main box body 1, wherein the inner cavity of the main box body 1 is divided into a first cavity 4, a second cavity 5 and a third cavity 6 by a first partition plate 2 and a second partition plate 3 which are parallel to each other, a filter screen 7 is arranged in the first cavity 4, an inlet pipeline 8 connected with the inside of the filter screen 7 is arranged on the side wall of the main box body 1, a through opening 9 is arranged on the first partition plate 2 and the second partition plate 3, the through opening 9 on the first partition plate 2 and the through opening 9 on the second partition plate 3 are respectively positioned at two ends of the width direction of the main box body 1, a liquid level sensor 10 and a liquid level sensor 11 are arranged in the third cavity 6, a liquid level window (12) is also arranged on the side wall of the third cavity 6, a drain pipeline 13, a manual drain pipeline 14, a manual drain pipeline 15 and a manual drain pipeline 16 which are communicated with the third cavity 6 are also arranged on the main box body 1, a manual drain pipeline 17 and a drain pipeline 18 are arranged on the manual drain pipeline 16,

the upper liquid level sensor 10 and the lower liquid level sensor 11 are radio frequency admittance liquid level switch sensors, the upper liquid level sensor 10 is lower than the lower edge of the drainage pipeline 13, the lower liquid level sensor 11 is higher than the upper edge of the drainage pipeline 15, the manual drainage pipeline 14 is lower than the drainage pipeline 13, the drainage pipeline 15 is lower than the manual drainage pipeline 14, the manual drainage pipeline 16 is lower than the drainage pipeline 15,

an upper cover 21 is matched with the main box body 1, an inspection window positioned above the filter screen 7 is formed in the upper cover 21, an inspection cover 22 is arranged at the inspection window, lifting lugs 19 are arranged on the upper cover 21 and the inspection cover 22, and an exhaust port 20 is formed in the upper cover 21.

Compared with the prior art, the utility model has the following advantages:

the oil spill recovery oil-water separation device in the structural form is simple in structure, ingenious in design and reasonable in layout, and aims at the problems of the device used in the traditional oil spill recovery process, a special structure is designed, oil-water mixtures can be discharged from the upper layer of oil and the lower layer of oil and water respectively after being filtered, precipitated and layered, so that oil-water automatic separation is realized, the whole separation process is simple and easy to implement, the separation flux is large, a large amount of oil-water separation operation can be realized in a relatively short time, the operation efficiency of offshore oil-water separation is improved, and meanwhile, the time and cost of onshore oil-water treatment can be reduced. The device has the advantages of simple manufacturing process and low manufacturing cost, and is particularly suitable for popularization and application in the field and has very broad market prospect.

Drawings

Fig. 1 is a front view of an embodiment of the present utility model.

Fig. 2 is a schematic perspective view of an embodiment of the present utility model.

Fig. 3 is a schematic view of the structure of two separators according to an embodiment of the present utility model.

Fig. 4 is a schematic structural view of an upper cover part in the embodiment of the present utility model.

Detailed Description

Specific embodiments of the present utility model will be described below with reference to the accompanying drawings. As shown in fig. 1 to 4: the utility model provides an overflow oil recovery oil water separator, it includes a main tank 1 as basis, the inner chamber of this main tank 1 is separated into first chamber 4 by first baffle 2 and second baffle 3 that are parallel to each other, second chamber 5 and third chamber 6, be provided with filter screen 7 in the first chamber 4, be provided with the entry pipeline 8 that links to each other with filter screen 7 inside on the lateral wall of main tank 1 simultaneously, all offered on first baffle 2 and the second baffle 3 and crossed the mouth 9 on the first baffle 2 and crossed the mouth 9 on the second baffle 3 and are located the both ends of main tank 1 width direction respectively, be provided with liquid level sensor 10 and lower liquid level sensor 11 in the third chamber 6 simultaneously, still be provided with liquid level window 12 on the lateral wall of third chamber 6 simultaneously on main tank 1 still be provided with drain line 13, manual drain line 14, drain line 15 and manual drain line 16 that are linked together with third chamber 6, manual drain line 14 and manual drain line 16 are provided with drain valve 17 on the manual drain line 15, manual drain line 16 is provided with drain valve 15,

the upper liquid level sensor 10 and the lower liquid level sensor 11 are radio frequency admittance liquid level switch sensors, the upper liquid level sensor 10 is lower than the lower edge of the drainage pipeline 13, the lower liquid level sensor 11 is higher than the upper edge of the drainage pipeline 15, the manual drainage pipeline 14 is lower than the drainage pipeline 13, the drainage pipeline 15 is lower than the manual drainage pipeline 14, the manual drainage pipeline 16 is lower than the drainage pipeline 15,

an upper cover 21 is matched with the main box body 1, an inspection window positioned above the filter screen 7 is formed in the upper cover 21, an inspection cover 22 is arranged at the inspection window, lifting lugs 19 are arranged on the upper cover 21 and the inspection cover 22, and an exhaust port 20 is formed in the upper cover 21.

The working process of the spilled oil recovery oil-water separation device provided by the embodiment of the utility model is as follows: when oil spills on the sea surface and oil floating on the sea surface is needed to be recovered, the oil-water mixture is pumped into the main tank body 1 of the device by utilizing the shipborne pump body, in particular, the oil-water mixture is directly pumped to the inlet pipeline 8, the oil-water mixture enters the filter screen 7 through the inlet pipeline 8 and is filtered at the inlet pipeline, some solid impurities in the oil-water mixture are trapped at the filter screen 7, the oil-water mixture with the solid impurities removed can fall into the first cavity 4 below the filter screen 7, and flows into the third cavity 6 through the through-flow opening 9 arranged on the first partition plate 2 and the second partition plate 3, and as the through-flow opening 9 on the first partition plate 2 and the through-flow opening 9 on the second partition plate 3 are respectively positioned at two ends of the width direction of the main tank body 1, namely, the flow track of the oil-water mixture is in a serpentine shape in the process of entering the third cavity 6 from the first cavity 4 through the second cavity 5, the structure can prevent the oil-water mixture entering the third cavity 6 from impacting the mixed liquid in the third cavity 6, so that the oil-water mixture in the third cavity 6 is more stable and is in a natural fluctuation state in the third cavity 6;

the upper liquid level sensor 10 and the lower liquid level sensor 11 which are arranged in the third cavity 6 are radio frequency admittance liquid level switch sensors, when a probe in the sensor is positioned in air and oil, no voltage signal is output, and when the probe is positioned in water, the voltage signal is output; that is, it can directly detect the water level in the layered oil-water mixture;

the oil-water mixture in the third cavity 6 is naturally layered after standing for a period of time, oil is arranged at the upper layer and water is arranged at the lower layer, the oil layer and the water layer are gradually raised along with the continuous increase of the oil-water mixture, when the liquid level of the oil reaches the height of the oil discharge pipeline 13, the oil at the uppermost layer can be automatically discharged through the normally open oil discharge pipeline 13, and the pipeline connected to the oil discharge pipeline 13 can guide the oil into the oil collecting container for storage;

when the oil-water interface contacts the lower liquid level sensor 11, the lower liquid level sensor 11 outputs a voltage signal to a shipborne control system, the control system can control the electromagnetic valve 18 on the drainage pipeline 15 to be half-opened, the drainage pipeline 15 starts to drain, and the water level is lowered; if the oil-water interface contacts the upper liquid level sensor 10, the upper liquid level sensor 10 outputs a voltage signal to a control system, and the control system can control the electromagnetic valve 18 on the drainage pipeline 15 to be fully opened, so that the drainage pipeline 15 can drain water rapidly, and the water level can drop rapidly; according to the design, the oil-water interface is always in the height range between the two sensors through the two liquid level sensors with the height difference, and the electromagnetic valve 18 is not required to be in a frequently opened and closed state, so that the failure rate of the device is reduced, and the reliability is improved;

if only one liquid level sensor is adopted, when the water inflow is smaller than the water outlet displacement, the oil-water interface can be rapidly reduced, and the electromagnetic valve 18 needs to be closed immediately, so that frequent start and stop can occur, and the service life of the electromagnetic valve 18 is reduced; when the water inflow is larger than the water outlet displacement, seawater enters the oil outlet when the oil-water interface rises to the oil outlet, and the purpose of oil-water separation cannot be achieved.

In the working process, a worker can observe the water level in the third cavity 6 from the side direction through the liquid level window 12, can open the check cover 22, observe the condition in the filter screen 7, and remove solid impurities in the filter screen 7 through the check window;

when all the liquid in the main tank 1 needs to be discharged to clean or overhaul the main tank 1, the manual valve 17 on the manual oil drain pipeline 14 can be opened first to drain the oil on the upper layer, and then the manual valve 17 on the manual water drain pipeline 16 can be opened to drain the residual oil-water mixture.

Claims (1)

1. The utility model provides an oil water separator is retrieved to oil spilling which characterized in that: the device comprises a main box body (1), the inner cavity of the main box body (1) is divided into a first cavity (4), a second cavity (5) and a third cavity (6) by a first partition plate (2) and a second partition plate (3) which are parallel to each other, a filter screen (7) is arranged in the first cavity (4), an inlet pipeline (8) connected with the inside of the filter screen (7) is arranged on the side wall of the main box body (1) at the same time, a through-flow opening (9) is arranged on each of the first partition plate (2) and the second partition plate (3), the through-flow opening (9) on the first partition plate (2) and the through-flow opening (9) on the second partition plate (3) are respectively positioned at two ends of the width direction of the main box body (1), a liquid level sensor (10) and a liquid level sensor (11) are arranged in the third cavity (6), a liquid level window (12) is also arranged on the side wall of the third cavity (6), an electromagnetic valve (16) is also arranged on the main box body (1) at the same time, a manual drainage pipeline (16) is arranged on the manual drainage pipeline (16) and a manual drainage pipeline (16),

the upper liquid level sensor (10) and the lower liquid level sensor (11) are both radio frequency admittance liquid level switch sensors, the upper liquid level sensor (10) is lower than the lower edge of the drainage pipeline (13), the lower liquid level sensor (11) is higher than the upper edge of the drainage pipeline (15), the manual drainage pipeline (14) is lower than the drainage pipeline (13), the drainage pipeline (15) is lower than the manual drainage pipeline (14), the manual drainage pipeline (16) is lower than the drainage pipeline (15),

an upper cover (21) is matched with the main box body (1), an inspection window positioned above the filter screen (7) is formed in the upper cover (21), an inspection cover (22) is arranged at the inspection window, lifting lugs (19) are arranged on the upper cover (21) and the inspection cover (22), and an exhaust port (20) is formed in the upper cover (21).

Images