CN113480081B - Waste water treatment device for steam injection boiler - Google Patents

Abstract

The invention is suitable for the technical field of wastewater treatment equipment, and particularly relates to a steam injection boiler wastewater treatment device, which comprises a wastewater treatment chamber, a slag discharge port, a filter residue screen plate and a wastewater inlet, wherein the filter residue screen plate is connected inside the wastewater treatment chamber in a sliding manner, and the slag discharge port and the wastewater inlet are both arranged on the surface of the wastewater treatment chamber, and the steam injection boiler wastewater treatment device is characterized by further comprising: and the reinjection structure is fixedly connected to the outer side of the wastewater treatment chamber and is communicated with the inside of the wastewater treatment chamber. The purified high-temperature wastewater can be heated by the reinjection structure, and the purified wastewater can be reinjected into the boiler by using steam generated by heating, so that the heat energy of the high-temperature wastewater can be recycled, and the waste energy utilization efficiency of the wastewater treatment equipment is improved.

Description

Waste water treatment device for steam injection boiler

Technical Field

The invention relates to the technical field of wastewater treatment equipment, in particular to a wastewater treatment device for a steam injection boiler.

Background

The oil field thermal recovery refers to the heating and then the recovery of viscous crude oil which is difficult to recover underground. Steam generating equipment used to inject steam into an underground reservoir to heat crude oil during thermal recovery in an oil field is called a thermal recovery boiler, also called an oil field steam injection boiler.

When steam is injected into an underground oil reservoir, a large amount of water is required to prepare the steam, and a large amount of sewage is generated while qualified steam is generated, and in order to avoid waste of water resources, sewage treatment equipment is generally used to purify the sewage so that the sewage can be reused for steam preparation.

When the wastewater treatment equipment is used, the temperature of the treated wastewater is in a high state, and the heat energy of the wastewater cannot be effectively utilized when the existing wastewater treatment equipment is used.

Disclosure of Invention

The embodiment of the invention aims to provide a waste water treatment device for a steam injection boiler, aiming at solving the following problems: when the wastewater treatment equipment is used, the temperature of the treated wastewater is in a high state, and the heat energy of the wastewater cannot be effectively utilized when the existing wastewater treatment equipment is used.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides an annotate vapour boiler effluent treatment plant, includes waste water treatment room, row's cinder notch, filter residue otter board and wastewater inlet, and filter residue otter board sliding connection all sets up the surface at waste water treatment room in the inside of waste water treatment room, row's cinder notch and wastewater inlet, its characterized in that, annotate vapour boiler effluent treatment plant still includes:

the reinjection structure is fixedly connected to the outer side of the wastewater treatment chamber and is communicated with the interior of the wastewater treatment chamber;

the anti-blocking structure is arranged at the position close to the wastewater inlet inside the wastewater treatment chamber and is movably connected with the wastewater treatment chamber;

the reinjection structure includes:

the separation component is arranged between the filter residue screen plate and the wastewater treatment chamber, and a steam cavity is formed between the separation component and the wastewater treatment chamber;

the electric heating rod is fixedly arranged on the inner wall of the wastewater treatment chamber and is arranged in the steam cavity;

the water storage component is arranged on the surface of the wastewater treatment chamber and is communicated with the interior of the wastewater treatment chamber;

the liquid pushing assembly is communicated with the interior of the wastewater treatment chamber and is connected with the water storage assembly in a sliding manner; and

and the air leakage assembly is connected to the outer side of the wastewater treatment chamber and is communicated with the inside of the liquid pushing assembly.

Further, the partition assembly includes:

a partition plate installed inside the wastewater treatment chamber; and

the first water pipe is arranged on the surface of the partition plate and is in threaded connection with the partition plate, and the first electromagnetic valve is arranged on the outer side of the first water pipe.

Further, the water storage assembly comprises:

the water storage tank is fixedly connected to the outer side of the wastewater treatment chamber;

the second water through pipe is arranged in the wastewater treatment chamber and the water storage tank and communicated with the wastewater treatment chamber and the water storage tank, and the second electromagnetic valve is arranged on the surface of the second water through pipe; and

the water return pipe is fixedly installed on one side of the water storage tank and communicated with the inside of the water storage tank.

Further, the liquid pushing assembly comprises:

the piston plate is arranged in the water storage assembly and is in contact with the interior of the water storage assembly;

the pushing piece is fixedly arranged on the surface of the piston plate;

a spring disposed between the piston plate and the water storage assembly; and

and the steam conveying pipe is communicated with the inside of the steam cavity and is in sealing connection with the pushing piece.

Further, the run-flat assembly comprises:

the air pipe is connected with the liquid pushing assembly and the inner side of the waste gas treatment chamber, and the electromagnetic air valve is arranged on the surface of the air pipe; and

and the blowing nozzle is arranged at one end of the air release piece and is arranged in the waste gas treatment chamber.

Further, the anti-blocking structure comprises:

the knocking block is arranged at a position close to the filter residue screen plate in the wastewater treatment chamber;

the transmission assembly is arranged in the position, close to the wastewater inlet, in the wastewater treatment chamber and is fixedly connected with the knocking block; and

the rotating plate is arranged on the transmission assembly and is arranged below the wastewater inlet.

Further, the transmission assembly includes:

the second rotating rod is rotatably connected inside the wastewater treatment chamber;

the transmission belt is arranged on the surface of the second rotating rod; and

and the first rotating rod is rotatably connected to the side surface of the wastewater treatment chamber and is connected with the transmission belt.

According to the steam-injection boiler wastewater treatment device provided by the invention, the purified high-temperature wastewater can be heated by the reinjection structure, and the purified wastewater is reinjected into the boiler by using steam generated by heating, so that the heat energy of the high-temperature wastewater can be recycled, and the waste energy utilization efficiency of the wastewater treatment equipment is improved.

Drawings

FIG. 1 is a schematic view showing a waste water treatment apparatus of a steam injection boiler.

FIG. 2 is a partial structural view of a piston post, a connecting rod and a piston plate in a wastewater treatment apparatus of a steam injection boiler.

FIG. 3 is a schematic structural diagram of an anti-clogging structure in a wastewater treatment device of a steam injection boiler.

FIG. 4 is a side view schematically showing a rotating plate and a first rotating rod in a wastewater treatment apparatus for a steam injection boiler.

In the figure: 1. a wastewater treatment chamber; 2. a slag discharge port; 3. a filter residue screen plate; 4. a reinjection structure; 41. a partition assembly; 411. a first solenoid valve; 412. a first water pipe; 413. a partition plate; 42. an electrical heating rod; 43. a water storage assembly; 431. a second solenoid valve; 432. a second water passage pipe; 433. a water return pipe; 434. a water storage tank; 44. a liquid pushing assembly; 441. a piston plate; 442. a spring; 443. a connecting rod; 444. a piston post; 445. a steam delivery pipe; 45. a venting assembly; 451. a blowing nozzle; 452. a breather pipe; 453. an electromagnetic gas valve; 5. an anti-clogging structure; 51. a rotating plate; 52. knocking the block; 53. a transmission assembly; 531. a first rotating lever; 532. a drive belt; 533. a second rotating lever; 6. and (4) a waste water inlet.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

As shown in fig. 1 to 4, a steam injection boiler wastewater treatment apparatus provided in an embodiment of the present invention includes a wastewater treatment chamber 1, a residue discharge port 2, a filter residue screen plate 3, and a wastewater inlet 6, where the filter residue screen plate 3 is slidably connected inside the wastewater treatment chamber 1, the residue discharge port 2 and the wastewater inlet 6 are both disposed on a surface of the wastewater treatment chamber 1, and the steam injection boiler wastewater treatment apparatus further includes:

the reinjection structure 4 is fixedly connected to the outer side of the wastewater treatment chamber, is communicated with the interior of the wastewater treatment chamber, and is used for heating the purified high-temperature wastewater and reinjecting the purified wastewater into the boiler by using steam generated by heating so as to recycle the heat energy of the high-temperature wastewater and quickly prepare the wastewater reinjected into the boiler into steam; and

the anti-blocking structure 5 is arranged at a position close to the wastewater inlet in the wastewater treatment chamber, is movably connected with the wastewater treatment chamber, and is used for driving the filter residue screen plate 3 to vibrate on the wastewater treatment chamber 1 by taking the gravitational potential energy of wastewater falling from the wastewater inlet 6 as power input and matching with mechanical transmission so as to shake out waste residues blocking the filter residue screen plate 3.

In an embodiment of the present invention, the refilling structure 4 may heat the high temperature waste water and refill the purified waste water into the boiler using steam generated by heating as a driving source, or may heat an easily expandable object using the high temperature waste water, and compress the purified high temperature waste water by the expanded object using the principle of expansion with heat and contraction with cold of the object, so as to refill the high temperature waste water into the boiler, preferably, the first method is used, in which the heat energy of the high temperature waste water can be fully utilized, and the waste water poured into the boiler can be rapidly prepared into steam, the anti-clogging structure 5 may be used in a manner of driving the object to impact the filter residue screen plate 3 by using the gravitational potential energy of the falling waste water or in a manner of supporting the filter residue screen plate 3 by using an elastic object, and directly pounding the high temperature waste water on the filter residue screen plate 3, so as to vibrate the filter residue screen plate 3, the purpose is to shake out the waste residue blocking the filter residue screen plate 3.

As shown in fig. 1 and 2, in one embodiment of the present invention, the reinjection structure 4 includes:

the separation component 41 is arranged between the filter residue screen plate 3 and the wastewater treatment chamber 1, and a steam cavity is formed between the separation component 41 and the wastewater treatment chamber 1;

the electric heating rod 42 is fixedly arranged on the inner wall of the wastewater treatment chamber 1, is arranged in the steam cavity and is used for heating high-temperature wastewater in the steam cavity so as to generate steam from the high-temperature wastewater, and the separation component 41 is used for preventing the steam in the steam cavity from entering the wastewater inlet 6;

a water storage assembly 43 installed on the surface of the wastewater treatment chamber 1, communicating with the interior of the wastewater treatment chamber 1, for storing the high-temperature wastewater after purification and to be re-injected into the boiler;

the liquid pushing assembly 44 is communicated with the interior of the wastewater treatment chamber 1, is in sliding connection with the water storage assembly 43, is used for transmitting steam in the steam cavity, and is also used for pushing high-temperature wastewater in the water storage assembly 43 by taking the steam as power input so that the high-temperature wastewater in the water storage assembly 43 can be injected back into the boiler; and

and the air leakage assembly 45 is connected to the outer side of the wastewater treatment chamber 1 and communicated with the inside of the liquid pushing assembly 44, and is used for releasing steam in the liquid pushing assembly 44.

In this embodiment, the separating component 41 can be a plate-shaped component to separate and cooperate with the communicating component or a sliding separating component is disposed on the wastewater treatment chamber 1, so as to form a closed steam cavity in the wastewater treatment chamber 1, the water storage component 43 can be a communicating component and cooperate with the storage tank to receive the high-temperature wastewater to be reinjected, the liquid pushing component 44 can transmit steam in the steam cavity and push the high-temperature wastewater in the water storage component 43 by using the steam as power to enable the high-temperature wastewater to be reinjected into the boiler, or can squeeze the water storage component 43 by using the high-temperature steam, so that the water storage component 43 deforms, so that the high-temperature wastewater in the water storage component 43 is pressed into the boiler, the air leaking component 45 can release the steam in the reinjection structure 4 by communicating the tubular component with the interior of the reinjection structure 4, or directly set a valve on the reinjection structure 4 to release the steam in the reinjection structure 4, the purpose of releasing the steam in the reinjection structure 4 is to allow the liquid pushing assembly 44, which pushes the waste water in the water storage assembly 43, to return to the original position without being driven by the steam.

In the present embodiment, the partition member 41 includes:

a partition plate 413 installed inside the wastewater treatment chamber 1 for preventing steam from overflowing the wastewater treatment chamber 1 through the wastewater inlet 6; and

a first water pipe 412 and a first solenoid valve 411, wherein the first water pipe 412 is installed on the surface of the partition plate 413 and is in threaded connection with the partition plate 413, and the first solenoid valve 411 is installed on the outer side of the first water pipe 412 and is used for conveying the high-temperature wastewater of the first water pipe 412 to the steam cavity.

In this embodiment, a steam chamber is formed between the partition plate 413 and the wastewater treatment chamber 1, the first water pipe 412 can discharge the wastewater purified by the filter residue screen plate 3 into the steam chamber, and the electrical heating rod 42 is electrically heated to generate steam from the wastewater in the steam chamber.

In this embodiment, the water storage unit 43 includes:

a water storage tank 434 connected to the outside of the wastewater treatment chamber 1 for storing high-temperature wastewater to be re-injected into the boiler;

a second water through pipe 432 and a second solenoid valve 431, wherein the second water through pipe 432 is installed inside the wastewater treatment chamber 1 and the water storage tank 434 and is communicated with the inside of the wastewater treatment chamber 1 and the water storage tank 434, the second solenoid valve 431 is arranged on the surface of the second water through pipe 432 and is used for conveying high-temperature wastewater into the water storage tank 434 and also can prevent the high-temperature wastewater in the water storage tank 434 from flowing back; and

and the water reinjection pipe 433 is fixedly installed on one side of the water storage tank 434, is communicated with the inside of the water storage tank 434, and is used for reinjecting the high-temperature wastewater into the boiler.

In this embodiment, the second water pipe 432 may inject the heated wastewater in the steam chamber into the water storage tank 434, and the second solenoid valve 431 may prevent the wastewater in the water storage tank 434 from flowing back.

In this embodiment, the liquid pushing assembly 44 includes:

a piston plate 441 installed inside the water storage assembly 43 and contacting with the inside of the water storage assembly 43 for pushing the high-temperature wastewater in the water storage assembly 43 so that the high-temperature wastewater can be reinjected into the boiler;

a pushing member fixedly mounted on the surface of the piston plate 411 for driving the piston plate 441 to move;

a spring 442 disposed between the piston plate 441 and the water storage assembly 43 for driving the piston plate 441 to return to the original position; and

and the steam conveying pipe 445 is communicated with the inside of the steam cavity, is in sealing connection with the pushing piece, is used for conveying steam in the steam cavity, and can also drive the pushing piece to move by taking the steam as power input.

In this embodiment, the piston column 444 is disposed inside the steam delivery pipe 445, the steam generated in the steam cavity will enter the steam delivery pipe 445, and as the amount of steam is accumulated, the steam will push the piston column 444 to move inside the steam delivery pipe 445, so that the piston column 444 together with the connecting rod 443 pushes the piston plate 441 to move inside the water storage tank 434, so that the piston plate 441 pushes the high-temperature wastewater in the water storage tank 434 into the water return pipe 433, so that the high-temperature wastewater is returned into the boiler.

In this embodiment, the run-flat assembly 45 includes:

a breather pipe 452 and an electromagnetic air valve 453, wherein the breather pipe 452 is connected to the inside of the liquid pushing assembly and the waste gas treatment chamber 1, and the electromagnetic air valve 453 is installed on the surface of the breather pipe 452 for discharging steam in the liquid pushing assembly 44; and

the blowing nozzle 451 is installed at one end of the air discharging member, is arranged inside the waste gas treatment chamber 1, and is used for releasing steam in the air discharging member and blowing the waste residue shaken out by the anti-clogging structure 5 on the filter residue screen plate 3 to one side of the surface of the filter residue screen plate 3, so as to clean and collect the waste residue.

In this embodiment, after the high temperature waste water in the storage water tank 434 is reinjected, the electric heating rod 42 is closed, and the electromagnetic air valve 453 is opened, so that the steam in the steam delivery pipe 445 and the steam chamber enters the air blowing nozzle 451 through the air pipe 452, and then blows on the surface of the filter residue screen plate 3 through the air blowing nozzle 451, so that the piston column 444 is not driven by the steam any more, and the spring 442 drives the piston plate 441 to return to the original position, and the steam discharged by the air blowing nozzle 451 can blow the waste residue on the surface of the filter residue screen plate 3 to the surface of the filter residue screen plate 3 near the slag discharge port 2, so as to be convenient for processing and collection.

As shown in fig. 3 and 4, in one embodiment of the present invention, the anti-clogging structure 5 includes:

the knocking block 52 is arranged at a position close to the filter residue screen plate 3 in the wastewater treatment chamber 1 and used for knocking the filter residue screen plate 3 to generate vibration so as to shake out waste residues blocking the filter residue screen plate 3;

the transmission component 53 is arranged in the wastewater treatment chamber 1 and close to the wastewater inlet 6, is fixedly connected with the knocking block 52, is used for installing the knocking block 52, and can also drive the knocking block 52 to move through mechanical transmission; and

and the rotating plate 51 is installed on the transmission assembly 53, and the rotating plate 51 is arranged below the wastewater inlet 6 and is used for driving the transmission assembly 53 to move by taking the gravitational potential energy of wastewater falling as power input.

In this embodiment, the transmission assembly 53 may drive the knocking block 52 to move in a belt transmission manner or a gear transmission manner, and the rotating plate 51 may convert gravitational potential energy of the falling wastewater into power to drive the transmission assembly 53 to move, so that the moving transmission assembly 53 may drive the knocking block 52 to move and knock the filter residue screen plate 3.

In the present embodiment, the transmission assembly 53 includes:

a second rotating rod 533 rotatably connected to the inside of the wastewater treatment chamber 1 for installing the knocking block 52 and driving the knocking block 52 to move;

a driving belt 532 disposed on a surface of the second rotating lever 533; and

and a first rotating rod 531 rotatably connected to a side surface of the wastewater treatment chamber 1, and connected to the driving belt 532, for rotating the second rotating rod 533 by using the rotating plate 51 as a power input and driving the second rotating rod 533 through the driving belt 532.

In this embodiment, when waste water falls and smashes on rotor plate 51 from waste water import 6, can make rotor plate 51 drive first dwang 531 and rotate on waste water treatment chamber 1 for first dwang 531 drives second dwang 533 through driving belt 532 and rotates on waste water treatment chamber 1, thereby makes second dwang 533 drive and strike piece 52 and rotate and strike filter residue otter board 3, makes the last waste residue of jam of filter residue otter board 3 break away from filter residue otter board 3.

The working mode of the invention is as follows: when the purified wastewater needs to be injected back into the boiler, the first electromagnetic valve 411 is firstly opened, so that the wastewater purified by the filter residue screen plate 3 is discharged into the steam cavity by the first water pipe 412, then the electric heating rod 42 is opened, the wastewater in the steam cavity can generate steam after the electric heating rod 42 is electrified and heated, then the second electromagnetic valve 431 is opened, so that the heated wastewater is injected into the water storage tank 434 through the second water pipe 432, the second electromagnetic valve 431 can also avoid the wastewater in the water storage tank 434 from flowing back, the steam generated in the steam cavity can enter the steam conveying pipe 445, along with the accumulation of steam quantity, the steam can push the piston column 444 to move in the steam conveying pipe 445, so that the piston column 444 together with the connecting rod 443 can push the piston plate 441 to move in the water storage tank 434, so that the piston plate 441 can push the high-temperature wastewater in the water storage tank 434 back into the water injection pipe 433, high-temperature wastewater is reinjected into the boiler, after the high-temperature wastewater in the water storage tank 434 is reinjected, the electric heating rod 42 is closed, the electromagnetic air valve 453 is opened, steam in the steam conveying pipe 445 and the steam cavity enters the air blowing nozzle 451 through the air pipe 452 and is blown on the surface of the filter residue screen plate 3 through the air blowing nozzle 451, so that the piston column 444 is not driven by the steam any more, the spring 442 drives the piston plate 441 to return to the original position, and the steam discharged by the air blowing nozzle 451 can blow waste residues on the surface of the filter residue screen plate 3 to the position, close to the residue discharge port 2, of the surface of the filter residue screen plate 3 so as to be convenient to treat and collect;

when waste water falls and pound on rotor plate 51 from waste water import 6, can make rotor plate 51 drive first dwang 531 and rotate on waste water treatment chamber 1 for first dwang 531 drives second dwang 533 through driving belt 532 and rotates on waste water treatment chamber 1, thereby makes second dwang 533 drive and strike piece 52 and rotate and strike filter residue otter board 3, makes the last waste residue of blockking up of filter residue otter board 3 break away from filter residue otter board 3.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (2)

1. The utility model provides an annotate vapour boiler effluent treatment plant, includes waste water treatment room, row's cinder notch, filter residue otter board and wastewater inlet, and filter residue otter board sliding connection all sets up the surface at waste water treatment room in the inside of waste water treatment room, row's cinder notch and wastewater inlet, its characterized in that, annotate vapour boiler effluent treatment plant still includes:

the reinjection structure is fixedly connected to the outer side of the wastewater treatment chamber and is communicated with the interior of the wastewater treatment chamber;

the anti-blocking structure is arranged at the position close to the wastewater inlet inside the wastewater treatment chamber and is movably connected with the wastewater treatment chamber;

the reinjection structure includes:

the separation component is arranged between the filter residue screen plate and the wastewater treatment chamber, and a steam cavity is formed between the separation component and the wastewater treatment chamber;

the electric heating rod is fixedly arranged on the inner wall of the wastewater treatment chamber and is arranged in the steam cavity;

the water storage component is arranged on the surface of the wastewater treatment chamber and is communicated with the interior of the wastewater treatment chamber;

the liquid pushing assembly is communicated with the interior of the wastewater treatment chamber and is connected with the water storage assembly in a sliding manner; and

the air leakage assembly is connected to the outer side of the wastewater treatment chamber and is communicated with the interior of the liquid pushing assembly;

the partition assembly includes:

a partition plate installed inside the wastewater treatment chamber; and

the first water pipe is arranged on the surface of the partition plate and is in threaded connection with the partition plate, and the first electromagnetic valve is arranged on the outer side of the first water pipe;

the liquid pushing component comprises:

the piston plate is arranged in the water storage assembly and is in contact with the interior of the water storage assembly;

the pushing piece is fixedly arranged on the surface of the piston plate;

a spring disposed between the piston plate and the water storage assembly; and

the steam conveying pipe is communicated with the interior of the steam cavity and is in sealing connection with the pushing piece;

the run-flat subassembly includes:

the air pipe is connected with the liquid pushing assembly and the inner side of the waste gas treatment chamber, and the electromagnetic air valve is arranged on the surface of the air pipe; and

the air blowing nozzle is arranged at one end of the air discharging piece and is arranged inside the waste gas treatment chamber;

the anti-blocking structure comprises:

the knocking block is arranged at a position close to the filter residue screen plate in the wastewater treatment chamber;

the transmission assembly is arranged in the position, close to the wastewater inlet, in the wastewater treatment chamber and is fixedly connected with the knocking block; and

the rotating plate is arranged on the transmission assembly and is arranged below the wastewater inlet;

the transmission assembly includes:

the second rotating rod is rotatably connected inside the wastewater treatment chamber;

the transmission belt is arranged on the surface of the second rotating rod; and

and the first rotating rod is rotatably connected to the side surface of the wastewater treatment chamber and is connected with the transmission belt.

2. The steam injection boiler wastewater treatment device according to claim 1, wherein the water storage assembly comprises:

the water storage tank is fixedly connected to the outer side of the wastewater treatment chamber;

the second water through pipe is arranged in the wastewater treatment chamber and the water storage tank and communicated with the wastewater treatment chamber and the water storage tank, and the second electromagnetic valve is arranged on the surface of the second water through pipe; and

the water return pipe is fixedly installed on one side of the water storage tank and communicated with the inside of the water storage tank.

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