CN113774872A

CN113774872A - Marine oil spilling microbiological treatment recovery system

Info

Publication number: CN113774872A
Application number: CN202110889974.XA
Authority: CN
Inventors: 李海波
Original assignee: Dingtai Ruitong Beijing Technology Co ltd
Current assignee: Heideway Technology Group Qingdao Co ltd
Priority date: 2021-08-04
Filing date: 2021-08-04
Publication date: 2021-12-10
Anticipated expiration: 2041-08-04
Also published as: CN113774872B

Abstract

The invention provides a marine oil spill microorganism treatment and recovery system which comprises a collection box arranged in a ship body and an oil absorption mechanism arranged outside the ship body, wherein the collection box comprises a first collection box and a second collection box arranged adjacent to the first collection box, a third collection box communicated with the first collection box is arranged on the lower side of the first collection box, and a valve is arranged between the first collection box and the third collection box. The invention solves the problems that the prior spilled oil recovery device can not simultaneously collect spilled oil in different states, the spilled oil on the surface of the oil absorption felt is difficult to collect, the efficiency of absorbing the spilled oil is low, and the like.

Description

Marine oil spilling microbiological treatment recovery system

Technical Field

The invention relates to the technical field of marine oil spill microbial treatment and recovery, in particular to a marine oil spill microbial treatment and recovery system.

Background

The sea is the vast resource treasury on the earth and also the widest living place of aquatic life. In the process of developing oceans on a large scale, a series of problems inevitably occur, and oil spill accidents are one of the problems, and are gradually focused on people. With the increasing development of ocean development and ocean transportation, the frequency of oil spill accidents at sea is increased correspondingly. The frequent oil spill accidents not only cause heavy waste of energy, but also bring damage to the ecological environment, which is difficult to recover.

In order to prevent, reduce and even eliminate the pollution of water areas, some engineering measures, such as oil suction ships, oil barriers and the like, must be taken. In addition, the spilled oil can be treated by manual recovery and by means of oil absorption materials, oil treating agents, sedimentation treatment, combustion treatment and the like. These methods are all effective methods for solving the problem of oil spillage at present. The oil absorption felt is adopted to absorb the spilled oil on the sea, so that the resource waste can be effectively avoided; for example, patent No. CN202010699469.4 discloses a marine spilled oil cleaning catamaran for secondary recovery, which, although absorbing the spilled oil by an oil absorption felt and then collecting the spilled oil by pressing the oil absorption felt, still has the following disadvantages:

1. the oil collected by the oil absorption felt still contains part of seawater, and when the collected oil is treated in the later stage, the water in the oil still needs to be separated, so that the cost is increased.

2. The oil exists in the marine environment in the form of an oil film floating on the sea surface, dispersed spilled oil floating on the sea surface and condensed spilled oil; this patent absorbs the oil spilling through the oil absorption felt that sets up on the conveyer belt, later extrude the oil spilling on the oil absorption felt through extrusion device, but the oil spilling of oil absorption felt in the in-process dispersion form and the oil spilling after condensing of oil absorption felt paste on the oil absorption felt surface, only can extrude the oil in the oil absorption felt at the in-process of extrusion oil absorption felt, and paste in the non-liquid oil spilling on oil absorption felt surface can be along with the transmission of conveyer belt gets into the sea water once more, not only influences the efficiency that the oil absorption felt absorbs the oil, also can't accomplish simultaneously and collect the non-liquid oil spilling on oil absorption felt surface.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a marine spilled oil microbial treatment and recovery system, which solves the problems that the conventional spilled oil recovery device cannot simultaneously collect liquid spilled oil in an oil absorption felt and non-liquid spilled oil on the surface, the spilled oil absorption efficiency is low, and the like.

The technical scheme adopted by the invention for solving the technical problems is as follows: a marine oil spill microorganism treatment and recovery system comprises a collection box arranged in a ship body and an oil absorption mechanism arranged outside the ship body, wherein the collection box comprises a first collection box and a second collection box arranged adjacent to the first collection box;

the lower end in the first collection box is provided with an aeration pipe which is communicated with an air pump; the upper side of the aeration pipe is provided with a guide plate which is fixedly connected with the right side wall in the first collection box and is obliquely arranged downwards, the first collection box is communicated with the second collection box through a communicating pipe, and the inlet end of the communicating pipe is positioned at the lower side of the joint of the guide plate and the first collection box;

the left side of the first collecting box is fixedly connected with a fixed pipe, the fixed pipe extends out of the ship body, an oil inlet pipe communicated with the first collecting box is arranged in the fixed pipe, an absorption pump is arranged on the oil inlet pipe, and the absorption pump is used for absorbing oil on the oil absorption mechanism;

advance oil pipe and keeping away from folding tube, reducing pipe, arc clamp plate have connected gradually in the direction of hull, the arc clamp plate be close to in the upper and lower both ends of hull one side with both sides are connected through telescopic link and bracing piece respectively about the fixed pipe, be equipped with the sunction inlet that the level set up on the arc clamp plate, arc clamp plate upside with the upside that fixed pipe is close to this arc clamp plate one end passes through extension spring and connects, oil absorption mechanism with the hull passes through the mount and connects.

Preferably, the oil absorption mechanism comprises a second rotating shaft which is horizontally arranged and can rotate, three first rotating shafts which are annularly arranged and horizontally arranged are arranged on the periphery side of the second rotating shaft, an oil absorption felt is arranged on the first rotating shafts, and two ends of each first rotating shaft are connected with two ends of the second rotating shaft through connecting plates;

a transmission gear and a driven gear are sequentially arranged on the outer side of the connecting plate in the direction far away from the second rotating shaft, the transmission gear is connected with the driven gear through a chain, and the driven gear is connected with the first rotating shaft;

end covers are arranged at two ends of the second rotating shaft, a toothed plate is fixedly arranged at the upper end of each end cover, a plurality of teeth which are uniformly distributed are arranged on the top surface of each toothed plate, the plurality of teeth are arranged on the same arc line, the toothed plate can be meshed with the transmission gear, and the end covers are fixedly connected with the fixing frames;

the upper end of one side of the arc-shaped pressing plate, which is far away from the fixed pipe, is provided with a roller which can rotate by taking the horizontal axis of the roller as a shaft; the lower end of one side, far away from the fixed pipe, of the arc-shaped pressing plate is provided with a scraper which is arranged along a horizontal line and fixedly connected with the arc-shaped pressing plate.

Preferably, limiting plates are arranged at two ends of the arc-shaped pressing plate.

Preferably, the absorption pump left side just be equipped with the breather valve on the oil inlet pipe, the air pump right side just is in be equipped with the observation window that is used for observing this oil inlet pipe inside on the oil inlet pipe.

The invention has the beneficial effects that:

1. the oil collected by the oil absorption mechanism firstly enters the first collection box, under the action of the air pump, the aeration pipe injects dense micro bubbles into the oil in the first collection box, and the micro bubbles are adhered to the oil to generate oil bubbles; because the density of the oil is less than that of the seawater, the seawater sinks and the oil rises under the action of the micro bubbles; can be effectual with the separation of water in the oil, the oil passes through communicating pipe with the form of foam afterwards and gets into in the second collecting box.

2. The second rotating shafts rotate clockwise, and the three first rotating shafts rotate clockwise by taking the second rotating shafts as axes, so that oil spilling can be pushed to the front side of the oil suction mechanism, the oil spilling thickness of the front side is increased while the oil spilling is prevented from being diffused, and the collection is facilitated; especially at least one of the three first rotating shafts realizes the continuous absorption of the spilled oil in the seawater. When the second pivot of drawing the sea water was laminated with the arc clamp plate gradually, drive gear on the connecting plate just began to mesh with the pinion rack, under the drive of chain, driven gear rotated, the rotation of second pivot has been realized, and the second pivot and the laminating of arc clamp plate this moment, through the epaxial oil absorption felt of roller extrusion second pivot on the arc clamp plate to hang the oil of oil absorption felt surface condensation state through the scraper blade, absorb through the absorption pump, effectively clear away the inside and surperficial oil spilling of oil absorption felt.

3. The upper end and the lower end of one side of the arc-shaped pressing plate, which are close to the ship body, are connected with the upper side and the lower side of the fixed pipe through telescopic rods and supporting rods respectively, the reducer pipe is connected with the oil inlet pipe through a folding hose, and the arc-shaped pressing plate swings in the second rotating shaft and is always attached to the oil absorption felt in the second rotating shaft in the contact process of the arc-shaped pressing plate. In addition, due to the arrangement of the extension spring, the original position can be restored after the arc-shaped pressing plate is separated from the second rotating shaft, and the next second rotating shaft which marks the sea surface can be attached and adsorbed conveniently.

4. The vent valve and the observation window on the oil inlet pipe are respectively arranged on the left side and the right side of the absorption pump, when the absorption pump absorbs oil, air enters the absorption pump by adjusting the vent valve, and the oil and the air passing through the absorption pump can be mixed in advance under the action of the absorption pump, so that the oil injected into the first collection box by the absorption pump is mostly in a foam shape; in addition, the mixing condition (bubble size) of oil and air in the oil inlet pipe is observed through the observation window, so that the vent valve can be conveniently adjusted at any time; by adjusting the size of the bubbles, the air and the oil are fully mixed (the air can be attached to the surface of the oil under the stirring of the absorption pump to form micro-foam, and the bubbles generated by the attachment of the air on the water are easy to break), and the oil-water separation effect is further improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view of the construction of the recovery system of this embodiment when installed on a ship;

FIG. 2 is an enlarged partial schematic view of area A of FIG. 1;

FIG. 3 is a schematic structural view of the oil suction mechanism of the present embodiment;

FIG. 4 is a schematic structural view of the arc-shaped pressing plate in the present embodiment;

FIG. 5 is a schematic structural view of another corner of the arc-shaped pressing plate in the present embodiment;

fig. 6 is a schematic view of a connection structure of the transmission gear and the toothed plate in the embodiment.

Reference numerals:

101: the hull 102: the first collecting tank 103: second collecting box

104: communication pipe 105: the third collection tank 106: valve gate

107: the aeration pipe 108: the air pump 109: vent valve

110: the absorption pump 111: the observation window 112: fixed pipe

113: an oil inlet pipe 114: the oil suction mechanism 115: fixing frame

201: folding the tube 202: the support rod 203: arc-shaped pressing plate

204: the squeegee 205: roller 206: extension spring

207: the expansion link 208: reducing pipe

301: oil-absorbing felt 302: first rotating shaft 303: connecting plate

304: driven gear 305: chain 306: transmission gear

307: the toothed plate 308: end cap 309: second rotating shaft

401: limiting plate 402: suction inlet

Detailed Description

Preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present invention, are given by way of illustration and explanation only, not limitation.

In the present invention, the terms "mounted," "connected," "fixed," and the like are used in a broad sense, and for example, "connected" may be a fixed connection, a detachable connection, or an integral connection. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, the practical directional terms such as "upper, lower, left, right" generally refer to upper, lower, left, right as shown in the drawings, unless otherwise specified; "inner and outer" refer to the inner and outer relative to the profile of the components themselves.

Referring to fig. 1 to 6, a marine spilled oil microbial treatment and recovery system comprises a collection box arranged in a ship body 101 and an oil absorption mechanism 114 for collecting marine spilled oil, wherein the collection box is connected with the oil absorption mechanism 114 through a suction device for absorbing oil collected by the oil absorption mechanism 114; the collecting box comprises a first collecting box 102 and a second collecting box 103 which is arranged adjacent to the first collecting box, a third collecting box 105 which is communicated with the first collecting box 102 is arranged at the lower side of the first collecting box 102, a valve 106 is arranged between the first collecting box 102 and the third collecting box 105, and the third collecting box 105 in the embodiment is a microorganism processing box; the lower end of the inside of the first collection tank 102 is provided with an aeration pipe 107, the height from the outlet of the aeration pipe 107 to the bottom surface of the first collection tank 102 is 10CM, the aeration pipe 107 is connected with an air pump 108, the upper side of the aeration pipe 107 is provided with a guide plate which is fixedly connected with the right side wall of the first collection tank 102 and inclines downwards, the first collection tank 102 is communicated with the second collection tank 103 through a communicating pipe 104, and the inlet end of the communicating pipe 104 is positioned at the lower side of the joint of the guide plate and the first collection tank 102.

Referring to fig. 1, the oil spill absorbed by the suction pump 110 in this embodiment is directly injected into the lower end of the interior of the first collection tank 102, and is discharged through two horizontally arranged horizontal pipes, and a plurality of oil outlets are uniformly arranged on the lower side of the horizontal pipes for discharging the oil spill above the outlet of the aeration pipe 107.

Referring to fig. 1 and 2-6, the suction device comprises a fixed pipe 112 fixedly connected with the left side of the first collection box 102, and the fixed pipe 112 extends out of the hull 101 and is fixedly connected with the hull 101; an oil inlet pipe 113 is arranged in the fixed pipe 112, the oil inlet pipe 113 is communicated with the first collecting tank 102, and the absorption pump 110 is arranged on the oil inlet pipe 113 and is used for absorbing oil on the oil absorption mechanism. Referring to fig. 2, the oil inlet pipe 113 is sequentially connected with a folding pipe 201, a reducer pipe 208 and an arc-shaped pressing plate 203 in a direction away from the hull 101; the upper end and the lower end of one side of the arc-shaped pressing plate 203, which is close to the ship body 101, are connected with the upper side and the lower side of the fixed pipe 112 through a telescopic rod 207 and a supporting rod 202 respectively, the two ends of the telescopic rod 207 are hinged with the arc-shaped pressing plate 203 and the fixed pipe 112 respectively, and the two ends of the supporting rod 202 are hinged with the arc-shaped pressing plate 203 and the fixed pipe 112 respectively; the arc-shaped pressing plate 203 is provided with a strip-shaped suction inlet 402, the length direction of the suction inlet 402 is arranged along the horizontal direction, and referring to fig. 1, both ends of the arc-shaped pressing plate 203 are provided with limiting plates 401.

The left side of the absorption pump 110 is provided with a vent valve 109 on the oil inlet pipe 113, the right side of the absorption pump 110 is provided with an observation window 111 on the oil inlet pipe 113, and the observation window 111 is used for observing the inside of the oil inlet pipe 113. Through adjusting breather valve 109, the control gets into the air content size in the absorption pump 110 to observe the inside bubble content size of advancing oil pipe 113 through observation window 111, absorption pump 110 opens breather valve 109 at the in-process of absorbing oil, makes oil, air pour into first collecting box 102 into after fully stirring in absorption pump 110 in, makes the bubble adhere on oil, carries out preliminary oil-water separation, improves oil-water separation's efficiency.

Specifically, under the action of the absorption pump 110, the oil passing through the absorption pump 110 can be mixed with the air in advance, the oil (liquid oil and non-liquid oil) and the air in different forms are fully and uniformly stirred, oil-water separation is primarily realized, a mixture of oil foam and water is formed, the mixture enters from the bottom of the first collection box 102, and the mixture entering the first collection box 102 is in a state that the oil foam is in the upper water; in addition, the height of the outlet of the aeration pipe 107 from the bottom surface of the first collection tank 102 is 10CM in the embodiment, so that the outlet of the aeration pipe 107 is ensured to extend into oil foam, and the water is positioned at the lower side of the outlet of the aeration pipe 107; the air pump 108 is started, the aeration pipe 107 generates a plurality of micro bubbles, the micro bubbles are attached to the oil, the density of the oil is less than that of the seawater, the oil with the micro bubbles rises and falls off from the seawater, and the oil-water separation is realized again; the air pump 108 is used for conveying tiny bubbles to the oil in the first collecting tank 102, so that the oil in the first collecting tank 102 is in a foam shape, the volume of the foam oil is increased continuously, and the foam oil enters the second collecting tank 103 from the communicating pipe 104 under the guidance of a guide plate to finish the collection of the oil; when the oil-water mixture in the first collection tank 102 is not generating foam oil or the height of water is close to the outlet height of the aeration pipe 107, the valve 106 is opened, so that the residual oil-water mixture in the first collection tank 102 enters the third collection tank 105 and is decomposed by microorganisms, and the national discharge standard is reached. The absorption pump 110 is arranged to uniformly stir the oil in different states and prepare for the adhesion of the micro bubbles on the oil; without the absorption pump 110, the fine bubbles are difficult to be sufficiently mixed with the oil in a different state and to adhere to the oil. As can be seen, the absorption pump 110 can absorb oil and improve the efficiency of oil-water separation (if the absorption pump 110 does not sufficiently agitate, aeration pipe 107 needs to be aerated for a long time).

Referring to fig. 3, the oil suction mechanism includes a second rotating shaft 309 which is horizontally arranged and can rotate, three first rotating shafts 302 which are annularly arranged and horizontally arranged are arranged on the outer peripheral side of the second rotating shaft 309, an oil suction felt 301 is arranged on the first rotating shafts 302, two ends of each first rotating shaft 302 are connected with two ends of the second rotating shaft 309 through connecting plates 303, and when the second rotating shaft 309 rotates, the three first rotating shafts 302 rotate around the second rotating shaft 309 under the driving of the connecting plates 303; two ends of the second rotating shaft 309 are respectively provided with an end cover 308 detachably connected with the second rotating shaft 309, the end covers 308 are fixedly connected with the fixed frame 115, and the fixed frame 115 is provided with a motor (not shown) for driving the second rotating shaft 309; referring to fig. 3, a driving gear 306 and a driven gear 304 are sequentially arranged on the outer side of the connecting plate 303 in a direction away from the second rotating shaft 309, the driving gear 306 and the driven gear 304 are connected through a chain 305, and the driven gear 304 is connected with the first rotating shaft 302; referring to fig. 3 and 6, a toothed plate 307 is fixedly arranged at the upper end of the end cover 308, a plurality of teeth are uniformly arranged on the top surface of the toothed plate 307, and the teeth are arranged on the same arc line; the top surface of the toothed plate 307 is arc-shaped and can be meshed with the transmission gear 306, the toothed plate 307 and the transmission gear 306 are separated from meshing, and the first rotating shaft 302 rotates exactly one circle (the arc length of the toothed plate 307 in this embodiment is equal to the circumference of the transmission gear 306); the upper end of one side of the arc-shaped pressing plate 203, which is far away from the fixed pipe 112, is provided with a roller 205, and the roller 205 can rotate by taking the horizontal axis of the roller 205 as an axis; the lower end of one side of the arc-shaped pressing plate 203, which is far away from the fixed pipe 112, is provided with a scraper 204, and the scraper 204 is arranged along the horizontal line and is fixedly connected with the arc-shaped pressing plate 203.

Specifically, at least one of the first rotating shafts 302 in this embodiment is located in seawater, so as to ensure that the oil absorption felt 301 on at least one of the first rotating shafts 302 is in an oil absorption state, and the rest of the first rotating shafts 302 are located above the sea surface; in the process that the first rotating shaft 302 moves out of the sea surface to be in contact with the arc-shaped pressing plate 203, the seawater attached to the oil absorption felt 301 on the first rotating shaft 302 can have time to slide off the oil absorption felt 301, and the content of the seawater contained in the surface of the oil absorption felt 301 is reduced; the end cap 308 in this embodiment is fixedly connected to the fixing frame 115, and when the second rotating shaft 309 rotates, the end cap 308 is in a stationary state, and the connecting plate 303 drives the first rotating shaft 302 to rotate clockwise with the second rotating shaft 309 as an axis; when the oil suction felt 301 on the first rotating shaft 302 which is out of the water surface is attached to the arc-shaped pressing plate 203, the transmission gears 306 on the connecting plates 303 at the two ends of the first rotating shaft 302 just start to be meshed with the toothed plates 307, and the transmission gears 306 move along an arc and rotate (when the transmission gears 306 rotate during the moving process because the transmission gears 306 are meshed with the toothed plates 307 and the toothed plates 307 are fixed) under the driving of the connecting plates 303, the driven gears 304 rotate under the driving of the chains 305, and the first rotating shaft 302 rotates clockwise by taking the horizontal axis of the first rotating shaft 302 as a shaft; meanwhile, the oil absorption felt 301 on the first rotating shaft 302 floating out of the sea surface and the roller 205 on the arc-shaped pressing plate 203 are mutually pressed, so that oil in the oil absorption felt 301 is extruded; the oil on the surface of the oil felt 301 is then hung up by the scraper 204, and the oil is sucked out from the suction port by the suction pump 110. In addition, the three first rotating shafts 302 in this embodiment all use the second rotating shaft 309 as a shaft to rotate clockwise, so that the oil spilling can be pushed to the front side of the oil suction mechanism, the oil spilling thickness on the front side is increased while the oil spilling is prevented from being diffused, and the collection is facilitated.

Compared with the whole oil suction roller, the oil suction roller is arranged in a combined form of the first rotating shaft and the second rotating shaft, and has the following advantages:

first, in this embodiment, by driving the second rotating shaft 309 to rotate, the three first rotating shafts 302 are not only rotated around the second rotating shaft 309, but also pushed to the front side of the oil suction mechanism while absorbing the spilled oil, so as to increase the thickness of the spilled oil on the front side and improve the absorption efficiency;

secondly, the method comprises the following steps: when each second rotating shaft 309 rises to a certain height (when the transmission gear 306 is meshed with the toothed plate 307), the second rotating shaft can rotate, and the second rotating shaft is attached to and extruded with the arc-shaped pressing plate 203, so that oil in and on the surface of the oil absorption felt 301 can be effectively absorbed, and the oil collection efficiency is improved.

Further, referring to fig. 2, 4 and 5, two ends of the arc-shaped pressing plate 203 of this embodiment are fixedly provided with a limiting plate 401, when the arc-shaped pressing plate 203 is attached to the first rotating shaft 302, the limiting plate 401, the roller 205, the scraper 204, the arc-shaped pressing plate 203, and the oil absorbent felt 301 on the first rotating shaft 302 form an accommodating space, so that the extruded oil and the hung oil can be sucked into the oil inlet pipe 113 under the suction action of the absorption pump 110 in the accommodating space, and can be prevented from falling into the seawater.

Referring to fig. 2, since the first rotating shaft 302 moves clockwise around the second rotating shaft 309, when the oil absorption felt 301 on the first rotating shaft 302 contacts the arc-shaped pressing plate 203, the oil absorption felt 301 first contacts with the upper side of the arc-shaped pressing plate 203, and then the oil absorption felt 301 is attached to the arc-shaped pressing plate 203, while the transmission gear 306 at this time starts to engage with the toothed plate 307, and the first rotating shaft 302 starts to rotate; in the process of moving the oil absorption felt 301, the telescopic rod 207 starts to extend, and the length of the supporting rod 202 is unchanged, so that the oil absorption felt 301 is always attached to the arc-shaped pressing plate 203; when the oil suction felt 301 and the arc-shaped pressing plate 203 start to separate, the transmission gear 306 and the toothed plate 307 separate, and the arc-shaped pressing plate 203 returns to the original position under the action of the tension spring 206. The upper side of the arc-shaped pressure plate 203 in this embodiment is connected with the upper side of one end of the fixed tube 112 close to the arc-shaped pressure plate through an extension spring 206.

In the specific implementation process of the system, referring to fig. 1-5, the oil suction mechanism is placed in the oil spilling region, the motor drives the second rotating shaft 309 to rotate clockwise, the three first rotating shafts 302 are driven by the connecting plate 303 to rotate clockwise by taking the second rotating shaft 309 as an axis, and when the oil in the oil spilling region is absorbed by the oil absorption felt 301, the three first rotating shafts 302 can push spilled oil to the front side of the oil suction mechanism to avoid oil spilling diffusion; in this embodiment, at least one of the three first rotating shafts 302 is in the seawater, which can ensure that the oil absorption mechanism is always in the oil absorption state; the first rotating shaft 302 for cutting the sea surface slides the water attached to the oil absorption felt 301 on the first rotating shaft 302 into the sea water in the process of cutting the sea surface until the first rotating shaft contacts with the arc-shaped pressing plate 203, so that the content of the sea water in the oil absorption felt 301 is reduced.

The first rotating shaft 302 which is used for drawing the sea surface is contacted and attached with the arc-shaped pressing plate 203, at the moment, the transmission gear 306 on the connecting plate 303 which is used for connecting the first rotating shaft 302 is engaged with the toothed plate 307, and in the process that the connecting plate 303 swings clockwise, the first rotating shaft 302 rotates, so that when the first rotating shaft 302 is attached with the arc-shaped pressing plate 203, the first rotating shaft 302 rotates, the first rotating shaft 302 attached with the arc-shaped pressing plate 203 rotates, oil in the oil absorption felt 301 can be fully extruded under the extrusion of the roller 205, the oil on the surface of the oil absorption felt 301 is scraped by the scraper 204, the oil enters the oil inlet pipe 113 through the suction inlet 402 on the arc-shaped pressing plate 203 under the action of the suction force of the absorption pump 110, and the extruded and scraped oil absorption felt 301 enters the sea water again;

in the process of absorbing oil by the absorption pump 110, the vent valve 109 is opened, so that oil and air are fully stirred in the absorption pump 110 and then injected into the first collection tank 102 in a foam state, firstly, bubbles are primarily adhered to the oil, the foam oil slides to the bottom of the first collection tank 102, at the moment, the air pump 108 is opened, micro bubbles are injected into the foam oil, the micro bubbles are adhered to the oil, and then, fine oil bubbles are generated; because the density of the oil is less than that of the seawater, the seawater sinks and the oil rises under the action of the micro bubbles; the water in the oil can be effectively separated, and then the oil enters the second collecting box 103 through the communicating pipe 104 in the form of fine foam, so that the water in the oil is further separated; the valve 106 is opened, the seawater left in the first collection tank 102 flows into the third collection tank 105, the third collection tank 105 in this embodiment is a microorganism decomposition tank, and harmful substances in the seawater are decomposed under the action of microorganisms, so as to reach the discharge standard.

The above embodiments are only preferred embodiments of the present invention, and it should be understood that the above embodiments are only for assisting understanding of the method and the core idea of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalents and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims

1. A marine oil spill microorganism treatment and recovery system comprises a collection box arranged in a ship body and an oil absorption mechanism arranged outside the ship body, wherein the collection box comprises a first collection box and a second collection box arranged adjacent to the first collection box; the method is characterized in that:

2. The microbial treatment recovery system of claim 1, wherein: the oil absorption mechanism comprises a second rotating shaft which is horizontally arranged and can rotate, three first rotating shafts which are annularly arranged and horizontally arranged are arranged on the periphery side of the second rotating shaft, an oil absorption felt is arranged on each first rotating shaft, and two ends of each first rotating shaft are connected with two ends of each second rotating shaft through connecting plates;

3. The microbial treatment recovery system of claim 2, wherein: limiting plates are arranged at two ends of the arc-shaped pressing plate.

4. The microbial treatment recovery system of claim 1, wherein: the absorption pump left side just be equipped with the breather valve on advancing oil pipe, the air pump right side just is in advance oil pipe and be equipped with the observation window that is used for observing this advances oil pipe inside.