CN221453796U - Technical equipment for emergency treatment of oil leakage oil sludge and oil water - Google Patents

Abstract

The application relates to technical equipment for emergency treatment of oil leakage oil sludge and oil water, which comprises the following components: decomposition system, solid-liquid separation system and liquid-liquid separation system, decomposition system includes: dissolve case and oil collecting tank, dissolve case and oil collecting tank intercommunication, dissolve case can separate earth sand water and oil in the fatlute, oil collecting tank collects the oil of dissolving incasement portion, and solid-liquid separation system includes: the input end of the solid-liquid separator is connected with the dissolution tank, the slag receiving tank is connected with the output end of the solid-liquid separator, the first oil-liquid delivery pump is connected with the output end of the solid-liquid separator, and the liquid-liquid separation system comprises: the input end of the liquid-liquid separator is connected with the oil-water conveying pump, and the output end of the liquid-liquid separator is connected with the oil storage tank. The method can fully utilize the oil-containing soil, extract the oil from the oil sludge in a pollution-free, low-cost and good-effect development and treatment mode, protect the environment and obtain the oil.

Description

Technical equipment for emergency treatment of oil leakage oil sludge and oil water

Technical Field

The application relates to the technical field of sludge treatment, in particular to technical equipment for emergency treatment of oil leakage oil sludge oil water.

Background

The oil sludge is industrial waste generated in the production process of petrochemical enterprises or a mixture generated by soil and water pollution due to leakage in transportation, and the oil content in the oil sludge is high, so that the oil sludge is a precious resource, and if the oil sludge is not recycled, larger resource waste can be caused; if the sludge is piled up or buried, a large amount of cultivated land is polluted, and the surrounding environment is polluted, the air is polluted when the volatile components of petroleum in the sludge enter the atmosphere; petroleum in the oil sludge enters a water body along with rainwater to cause serious pollution and destroy an ecological system of the water; petroleum in the oil sludge enters the soil and can cause harm to microorganisms of the soil and a soil plant ecological system. More serious is that many harmful substances in crude oil have mutagenic and carcinogenic properties, and cause serious damage to human health through direct and indirect routes. The dirty oil sludge should be reasonably disposed by adopting a proper process method in terms of environmental protection, resource recovery and production operation.

Disclosure of utility model

In view of the above, the application provides technical equipment for emergency treatment of oil leakage oil sludge and oil water, and recovery of oil in the oil sludge.

According to one aspect of the application, an oil leakage oil sludge oil-water emergency treatment technical device is provided, comprising: the device comprises a decomposition system, a solid-liquid separation system and a liquid-liquid separation system;

The decomposition system includes: the dissolving tank is communicated with the oil collecting tank, the dissolving tank can separate soil, sand, water and oil in the oil sludge, and the oil collecting tank collects the oil in the dissolving tank;

the solid-liquid separation system comprises: the device comprises a solid-liquid separator, a slag receiving groove and a first oil-water conveying pump, wherein the input end of the solid-liquid separator is connected with the dissolution tank, the slag receiving groove is connected with the output end of the solid-liquid separator, and the first oil-water conveying pump is connected with the output end of the solid-liquid separator;

the liquid-liquid separation system includes: the liquid-liquid separator is characterized by comprising a liquid-liquid separator and an oil storage tank, wherein the input end of the liquid-liquid separator is connected with the first feeding pump, and the output end of the liquid-liquid separator is connected with the oil storage tank.

In one possible implementation, the decomposition system further includes: a suction pump, a mixing injection device, and a heater;

the input end of the suction pump is suitable for being connected with an oil sludge pollutant collecting device, and the output end of the suction pump is connected with the dissolving tank;

the mixing and spraying device is arranged in the dissolving tank;

The heater is arranged inside the dissolution tank.

In one possible implementation, the decomposition system further includes: a stirring pump;

The output end of the stirring pump is positioned in the dissolution box and stirs the sludge pollutants in the dissolution box.

In one possible implementation, the decomposition system further includes: an oil pouring pump;

The input end of the oil pouring pump is connected with the oil collecting tank, and the output end of the oil pouring pump is connected with the oil collecting tank.

In one possible implementation, the decomposition system includes: a first decomposition system and a second decomposition system;

The output end of the first decomposition system is connected with the input end of the second decomposition system;

And the output end of the second decomposition system is connected with the solid-liquid separation system.

In one possible implementation, the solid-liquid separation system further includes: a fluid pump, a mixture buffer tank and a first feed pump;

The input end of the fluid pump is connected with the dissolving tank;

The input end of the mixture buffer tank is connected with the fluid pump;

the input end of the first feeding pump is connected with the mixture buffer tank, and the output end of the first feeding pump is connected with the solid-liquid separator.

In one possible implementation, the solid-liquid separation system further includes: the device comprises a first oil-water buffer tank, a conveying mechanism, a stirring device and an on-line soil property detection device;

The input end of the first oil-water buffer tank is connected with the solid-liquid separator, and the output end of the first oil-water buffer tank is connected with the dissolution tank;

the stirring device is connected with the output end of the slag receiving groove through the conveying mechanism;

The soil property on-line detection device is connected with the stirring device and is used for detecting substances in the stirring device.

In one possible implementation, the liquid-liquid separation system further includes: the second oil-water conveying pump, the second oil-water buffer tank and the second feeding pump;

the input end of the second oil-water conveying pump is connected with the dissolving tank;

the input end of the second oil-water buffer tank is connected with the second oil-water conveying pump;

The input end of the second feeding pump is connected with the second oil-water buffer tank, and the output end of the second feeding pump is connected with the liquid-liquid separator.

In one possible implementation, the liquid-liquid separation system further includes: the device comprises an oil delivery pump, a buffer water tank, a booster pump, a water treatment device and a water on-line detection device;

the oil transfer pump is connected with the output end of the oil storage tank;

the buffer water tank is connected with the output end of the liquid-liquid separator; and is also provided with

The buffer water tank, the booster pump, the water treatment device and the water on-line detection device are sequentially connected.

In one possible implementation, the method further includes: a power distribution system and a steam generation system;

The power distribution system supplies power to the decomposition system, the solid-liquid separation system and the liquid-liquid separation system;

The steam generation system is connected with the dissolution box of the decomposition system to provide steam for the dissolution box.

The technical equipment for emergency treatment of oil leakage oil sludge and oil water has the beneficial effects that: uniformly collecting and intensively feeding the oil sludge into a first decomposition system dissolution tank filled with water in batches, heating by a first heater, spraying by using a first mixing spraying device, crushing and dissolving the oil sludge, intensively recycling the oil on the surface of the dissolution tank to an oil collecting tank, naturally depositing the soil sand water on the bottom of the soil sand water, sucking the soil sand water on the bottom of the deposition tank into a second decomposition system dissolution tank, spraying by using a mixing spraying device, crushing and dissolving the oil sludge, floating residual oil on the surface of the dissolution tank, intensively recycling the residual oil to an oil collecting tank, pumping the soil sand water on the bottom of the dissolution tank to a separation system again, performing solid-liquid separation by using a solid-liquid separation system, uniformly mixing the separated soil sand and additives in a stirring system, and performing on-site on-line detection to reach the standard, and then using the mixture. And (3) delivering the mixed liquid separated in the solid-liquid separation system to a liquid-liquid separation system for separation, delivering the separated water to a primary dissolving tank for recycling and extracting oil, recycling the extracted oil to an oil storage tank, repeating the steps until all the sludge is treated, delivering the water to a water treatment system for treatment, and carrying out on-line detection and utilization or discharge after reaching the standard. Thus, the recovery of oil and the utilization rate of soil can be improved, the efficiency is improved by the multimode combination and the sludge dissolution method, the soil containing oil is fully utilized, the oil is extracted from the sludge containing oil in a pollution-free, low-cost and good-effect mode of development and treatment, the environment is protected, and the oil is obtained.

Other features and aspects of the present application will become apparent from the following detailed description of exemplary embodiments, which proceeds with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate exemplary embodiments, features and aspects of the application and together with the description, serve to explain the principles of the application.

Fig. 1 shows a system connection schematic diagram of oil leakage oil sludge oil-water emergency treatment technical equipment according to an embodiment of the application.

Detailed Description

Various exemplary embodiments, features and aspects of the application will be described in detail below with reference to the drawings. In the drawings, like reference numbers indicate identical or functionally similar elements. Although various aspects of the embodiments are illustrated in the accompanying drawings, the drawings are not necessarily drawn to scale unless specifically indicated.

It should be understood, however, that the terms "center," "longitudinal," "transverse," "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counter-clockwise," "axial," "radial," "circumferential," and the like indicate or are based on the orientation or positional relationship shown in the drawings, and are merely for convenience of describing the utility model or simplifying the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the utility model.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

The word "exemplary" is used herein to mean "serving as an example, embodiment, or illustration. Any embodiment described herein as "exemplary" is not necessarily to be construed as preferred or advantageous over other embodiments.

In addition, numerous specific details are set forth in the following description in order to provide a better illustration of the application. It will be understood by those skilled in the art that the present application may be practiced without some of these specific details. In some instances, well known methods, procedures, components, and circuits have not been described in detail so as not to obscure the present application.

Fig. 1 shows a system connection schematic diagram of oil leakage oil sludge oil-water emergency treatment technical equipment according to an embodiment of the application. As shown in fig. 1, the technical equipment for emergency treatment of oil leakage oil sludge and oil water in the embodiment of the application comprises: a decomposition system, a solid-liquid separation system 300, and a liquid-liquid separation system 400. The decomposition system comprises: dissolve case and oil collecting tank, dissolve case and oil collecting tank intercommunication, dissolve case can separate earth sand water and oil in the fatlute, oil collecting tank collects the oil of dissolving incasement portion, and solid-liquid separation system 300 includes: the solid-liquid separation machine 340, connect slag groove 350 and first profit delivery pump 390, the input and the dissolving tank of solid-liquid separation machine 340 are connected, connect slag groove 350 and the output of solid-liquid separation machine 340 to be connected, first oil-water delivery pump 390 is connected with the output of solid-liquid separation machine 340, and liquid-liquid separation system 400 includes: the input end of the liquid-liquid separator 440 is connected with the second oil-water conveying pump, and the output end of the liquid-liquid separator 440 is connected with the oil storage tank 450.

Therefore, the oil sludge is uniformly collected, concentrated and batched into a dissolution tank of the first decomposition system 100 filled with water, the dissolution tank is heated by the first heater 140, meanwhile, the first mixed spraying device 130 is utilized for spraying, the dissolved oil sludge is crushed, oil floats on the surface of the dissolution tank and is concentrated and recycled to an oil collecting tank, the soil sand water at the bottom of the deposition tank is pumped into the dissolution tank of the second decomposition system 200 by the natural deposition tank bottom of the soil sand water, then the mixed spraying device is utilized for spraying, the crushed and dissolved oil sludge is crushed, residual oil floats on the surface of the dissolution tank and is concentrated and recycled to the oil collecting tank, the soil sand water at the bottom of the dissolution tank is pumped to a separation system again, the solid-liquid separation system 300 is utilized for solid-liquid separation at first, the separated soil sand and the additive are uniformly mixed in the stirring system 360, and the separated soil sand and the additive are utilized after reaching standards through on-site on-line detection. The mixed liquid separated in the solid-liquid separation system 300 is sent to the liquid-liquid separation system 400 for separation, the separated water is sent to the primary dissolving tank for reuse and oil extraction, the extracted oil is recovered to the oil storage tank 450, and the steps are repeated until all the sludge is treated, the water is sent to the water treatment system for treatment, and the water is utilized or discharged after the on-line detection reaches the standard.

In one embodiment, the decomposition system includes: the first and second decomposition systems 100 and 200 can further promote the decomposition of sludge contaminants.

In one embodiment, the first decomposition system 100 further comprises: a first suction pump 110, a mixing and jetting device, and a heater. The input end of the suction pump is used for connecting the sludge pollutant collecting device, and the output end of the suction pump is connected with the dissolving box, so that the sludge in the sludge pollutant collecting device can be conveyed to the dissolving box 120 of the separation system. The mixing and spraying device and the heater are arranged in the dissolution tank, oil and earth sand water in the sludge are separated in a heating mode, the oil floats on the surface of the dissolution tank and is intensively recovered into the first oil collection tank 150, and the earth sand water naturally deposits at the bottom of the dissolution tank 120.

In this particular embodiment, the first decomposition system 100 further includes: a first stirring pump 160. The output end of the first stirring pump 160 is positioned inside the dissolution tank 120 to stir the sludge pollutants inside the dissolution tank 120, thereby improving the sludge decomposition rate inside the dissolution tank 120.

In a specific embodiment, the equipment inside the second decomposition system 200, which is identical to the apparatus of the first decomposition system 100, includes: a suction pump 210, a second dissolution tank 220, a second mixing and spraying device 230, a second heater 240, a second oil collecting tank 250, and a second stirring pump 260. The input end of the fluid pump 210 is connected with the dissolution tank 120, and the output end is connected with the second dissolution tank 220, so that the mud sand water automatically deposited at the bottom of the dissolution tank 120 can be pumped into the second dissolution tank 220, the secondary separation of the mud sand water is completed, and the oil of the oil sludge pollutants is further extracted. The second stirring pump accelerates the separation of the oil from the sludge.

In an embodiment, the first decomposition system 100 includes a first oil pouring pump 180, the second decomposition system 200 includes a second oil pouring pump 280, and the input ends of the first oil pouring pump 180 and the second oil pouring pump 280 are connected to the first oil collecting tank 150 or the second oil collecting tank 250, and the output end is connected to the oil storage tank 450, so as to convey the collected oil to the inside of the oil storage tank 450 for storage.

In one embodiment, the solid-liquid separation system 300 further comprises: a fluid pump 310, a mixture buffer tank 320, and a first feed pump 330. The input end of the fluid pump 310 is connected with the second dissolving tank 220, and the muddy water of the sandy soil precipitated at the bottom of the second dissolving tank 220 is pumped into the mixture buffer tank 320 to buffer the muddy water of the sandy soil still containing oil, so as to avoid damaging subsequent equipment. The input end of the first feeding pump 330 is connected with the mixture buffer tank 320, and the output end is connected with the solid-liquid separator 340, and the stabilized sandy soil muddy water is pumped into the solid-liquid separator 340, so that the solid-liquid separation of the sandy soil muddy water is realized.

In this particular embodiment, the solid-liquid separation system 300 further includes: a first oil-water buffer tank 380, a conveying mechanism, a stirring device 360 and an on-line soil quality detection device 370. The input end of the first oil-water buffer tank 380 is connected with the solid-liquid separator 340, the output end is connected with the dissolution tank 120 through the first oil-water conveying pump 390, muddy water still containing oil separated in the solid-liquid separator 340 is conveyed into the dissolution tank 120 for continuous decomposition, and the purity of the oil is improved. Moreover, the stirring device 360 is connected with the output end of the slag receiving groove 350 through a conveying mechanism, so as to stir the sand and soil separated in the solid-liquid separator 340, and an online soil detection device 370 is connected and arranged on the stirring device 360 and is used for detecting whether substances in the stirring device 360 meet the discharge requirement.

In one embodiment, the liquid-liquid separation system 400 further comprises: a second oil-water transfer pump 410, a second oil-water buffer tank 420 and a second feed pump 430. The input end of the second oil-water delivery pump 410 is connected with the external oil to be treated, the first oil-water delivery pump 390 delivers the separated muddy oil water into the second oil-water buffer tank 420, and after the second oil-water buffer tank 420 is buffered and stabilized, the muddy water containing oil is delivered into the liquid-liquid separator 440 through the second feeding pump 430, and the liquid-liquid separator 440 separates the oil and water in the muddy water. The oil may be drained into the oil tank 450 for storage, completing the separation of the oil and water.

In this particular embodiment, the liquid-liquid separation system 400 further includes: and an oil transfer pump 460. The oil transfer pump 460 is connected to an output end of the oil storage tank 450, and is used for transferring oil stored in the oil storage tank 450.

In this particular embodiment, the liquid-liquid separation system 400 further includes: the buffer tank 470, the booster pump 480, the water treatment device 490, and the water in-line detection device 4110. Wherein the buffer water tank 470, the booster pump 480, the water treatment device 490 and the water on-line detection device 4110 are sequentially connected, the water separated by the liquid-liquid separator 440 is extracted, the separated water is treated, and the treated water is continuously detected whether the discharge standard is satisfied.

In a specific embodiment, the method further comprises: the steam generation system 500. The steam generation system 500 is connected to the dissolution tank of the first decomposition system 100 and the dissolution tank of the second decomposition system 200 to supply steam to the dissolution tank.

In a specific embodiment, the method further comprises: the carrier loader, the first decomposition system 100, the second decomposition system 200, the solid-liquid separation system 300 and the liquid-liquid separation system 400 are all matched with one carrier loader, so that the carrier loader can flexibly and rapidly move, and the transportation time of a third party is saved.

In one embodiment, the first decomposition system 110 is further connected to an illumination system 170 for illumination, so as to facilitate the absorption of the oily sludge by the worker.

In one embodiment, the system further includes a power system 700 for providing power to the overall plant arrangement.

In this specific embodiment, further comprising: a power distribution system 600. The power distribution system 600 distributes power to the first decomposition system 100, the second decomposition system 200, the solid-liquid separation system 300, and the liquid-liquid separation system 400.

The foregoing description of embodiments of the application has been presented for purposes of illustration and description, and is not intended to be exhaustive or limited to the embodiments disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the various embodiments described. The terminology used herein was chosen in order to best explain the principles of the embodiments, the practical application, or the improvement of technology in the marketplace, or to enable others of ordinary skill in the art to understand the embodiments disclosed herein.

Claims (9)

1. Technical equipment for emergency treatment of oil leakage oil sludge and oil water is characterized by comprising the following components: the device comprises a decomposition system, a solid-liquid separation system and a liquid-liquid separation system;

The decomposition system includes: the dissolving tank is communicated with the oil collecting tank, the dissolving tank can separate soil, sand, water and oil in the oil sludge, and the oil collecting tank collects the oil in the dissolving tank;

the solid-liquid separation system comprises: the device comprises a solid-liquid separator, a slag receiving groove and a first oil-water conveying pump, wherein the input end of the solid-liquid separator is connected with the dissolution tank, the slag receiving groove is connected with the output end of the solid-liquid separator, and the first oil-water conveying pump is connected with the output end of the solid-liquid separator;

The solid-liquid separation system further comprises: a fluid pump, a mixture buffer tank and a first feed pump; the input end of the fluid pump is connected with the dissolving tank; the input end of the mixture buffer tank is connected with the fluid pump; the input end of the first feeding pump is connected with the mixture buffer tank, and the output end of the first feeding pump is connected with the solid-liquid separator;

The liquid-liquid separation system includes: the input end of the liquid-liquid separator is connected with the first oil-water conveying pump, and the output end of the liquid-liquid separator is connected with the oil storage tank.

2. The oil leakage sludge oil water emergency treatment technical equipment according to claim 1, wherein the decomposition system further comprises: a mixing and jetting device, a suction pump and a heater;

the input end of the suction pump is suitable for being connected with an oil sludge pollutant collecting device, and the output end of the suction pump is connected with the dissolving tank;

the mixing and spraying device is arranged in the dissolving tank;

The heater is arranged inside the dissolution tank.

3. The oil leakage sludge oil water emergency treatment technical equipment according to claim 2, wherein the decomposition system further comprises: a stirring pump;

The output end of the stirring pump is positioned in the dissolution box and stirs the sludge pollutants in the dissolution box.

4. The oil leakage sludge oil water emergency treatment technical equipment according to claim 2, wherein the decomposition system further comprises: an oil pouring pump;

The input end of the oil pouring pump is connected with the oil collecting tank, and the output end of the oil pouring pump is connected with the oil collecting tank.

5. The oil leakage sludge oil-water emergency treatment technical equipment according to any one of claims 1 to 4, wherein the decomposition system comprises: a first decomposition system and a second decomposition system;

The output end of the first decomposition system is connected with the input end of the second decomposition system;

And the output end of the second decomposition system is connected with the solid-liquid separation system.

6. The oil product leakage sludge oil-water emergency treatment technical equipment according to claim 1, wherein the solid-liquid separation system further comprises: the device comprises a first oil-water buffer tank, a conveying mechanism, a stirring device and an on-line soil property detection device;

The input end of the first oil-water buffer tank is connected with the solid-liquid separator, and the output end of the first oil-water buffer tank is connected with the dissolution tank;

the stirring device is connected with the output end of the slag receiving groove through the conveying mechanism;

the soil property online detection device is connected with the stirring device and is used for detecting substances in the stirring device;

the input of the first oil-water conveying pump is connected with the first oil-water buffer tank.

7. The oil leakage sludge oil-water emergency treatment technical equipment according to claim 1, wherein the liquid-liquid separation system further comprises: the second oil-water conveying pump, the second oil-water buffer tank and the second feeding pump;

the input end of the second oil-water conveying pump is connected with the dissolving tank;

the input end of the second oil-water buffer tank is connected with the first oil-water conveying pump;

The input end of the second feeding pump is connected with the second oil-water buffer tank, and the output end of the second feeding pump is connected with the liquid-liquid separator.

8. The oil leakage sludge oil-water emergency treatment technical equipment according to claim 7, wherein the liquid-liquid separation system further comprises: the device comprises an oil delivery pump, a buffer water tank, a booster pump, a water treatment device and a water on-line detection device;

the oil transfer pump is connected with the output end of the oil storage tank;

the buffer water tank is connected with the output end of the liquid-liquid separator; and is also provided with

The buffer water tank, the booster pump, the water treatment device and the water on-line detection device are sequentially connected.

9. The oil leakage sludge oil-water emergency treatment technical equipment according to claim 1, further comprising: a power distribution system and a steam generation system;

The power distribution system supplies power to the decomposition system, the solid-liquid separation system and the liquid-liquid separation system;

The steam generation system is connected with the dissolution box of the decomposition system to provide steam for the dissolution box.