CN211595306U - Complete equipment for removing emulsified coke powder in delayed coking sewage by precoating membrane technology - Google Patents

Abstract

The utility model discloses a complete equipment for removing emulsified coke powder in delayed coking sewage by a precoating film technology; the coking sewage firstly enters an ultrasonic demulsification device system and is demulsified by emulsified oil droplets by utilizing an ultrasonic field; then entering a positive pressure full-closed flotation and sedimentation integrated treatment device system to carry out flotation separation on free-phase tar oil drops generated by ultrasonic crushing, and carrying out sedimentation separation on large-particle coke powder to remove the large-particle coke powder; at the moment, a large amount of micro-nano high-charge emulsified coke powder particles still remain in the water, and the problems of incapability of demulsification, difficulty in hydraulic separation, poor mechanical filtering effect, serious membrane blockage due to filtration of a solidified membrane and the like exist; and finally, the membrane is treated by a precoating membrane filtering device system, the composite precoating membrane layer precoated on the membrane-coated filter element is used for replacing a curing membrane layer, emulsified coke powder particles are thoroughly filtered out, the composite precoating membrane layer and the intercepted coke powder particles are thoroughly washed away by a membrane explosion after the membrane is blocked, and the membrane is coated again for filtering, so that the problem of irreversible pollution of the curing membrane layer is solved.

Description

Complete equipment for removing emulsified coke powder in delayed coking sewage by precoating membrane technology

Technical Field

The utility model relates to the field of removing emulsified coke powder in coking sewage, in particular to a method and a complete device for removing emulsified coke powder in delayed coking sewage by a precoating membrane technology.

Background

The content of coke powder in the coking sulfur-containing sewage and high oil-containing sewage generated by the delayed coking device is changed between 100 mg/L and 1200mg/L, mainly because the material level and the height of a foam layer of a coke tower cannot be optimally controlled, the gas velocity is too high, and oil gas carrying coke powder is easy to flow out of the coke tower; the oil content is changed between 500 mg/L and 3000 mg/L, because the content of compounds such as sulfur, phenol and the like in the sewage is high, the compounds with the surfactant cause the stable existence of the water-oil-retaining emulsion, and the oil-retaining emulsion is preserved for a long time without layering, so that the oil content of the sewage is high; in the production process, a large amount of sulfide, ammonia nitrogen and phenol volatile substances enter sewage, the content fluctuates within the range of 1500-15000 mg/l, and the toxicity to the environment is great; the process needs whole-process closed operation, purified water is partially reinjected into electric desalting, and part of the purified water directly enters the sewage farm to be subjected to standard discharge treatment.

The coke powder has small particle size and is uniformly distributed; coke powder with particle size less than 9.5 μm accounts for 30% of the total coke powder which cannot be normally separated by means of sedimentation and flotation; coke powder with particle size less than 52.5 μm, accounting for 95% of the total; the coke powder with the particle size of 52.5-83.9 μm only accounts for 5% of the total.

The main problem at present is that the concentration of pollutants in the delayed coking wastewater far exceeds the water inlet standard of a stripping device, particularly coke powder and tar. If the waste water enters the stripping device directly, the oil on the waste water can cause the oil accumulation on the tower tray, the vapor-liquid balance is damaged, and the stripping operation is influenced; the sewage is provided with coke powder, which easily causes tower tray coking and float valve blockage, affects the stable operation of the device and finally causes the shutdown and maintenance of the device. Therefore, before entering the stripping device, the coking sulfur-containing sewage must be strictly subjected to oil removal and coke powder removal treatment, which is the difficulty and the key point of delayed coking wastewater treatment at present.

The prior pretreatment methods for removing oil and coke powder from the delayed coking sulfur-containing sewage mainly comprise a physical method, a physicochemical method and the like, the delayed coking sulfur-containing sewage is treated by adopting a treatment method according to local conditions, but a treatment method which can be generally used, can effectively remove the emulsified coke powder in the coking sewage and can continuously and stably operate is not available, and some common methods are briefly summarized as follows:

(1) filtration method

The pretreatment of sulfur-containing sewage of a delayed coking device of Claritypetrochemical company of China petroleum adopts a mechanical filter, the mechanical filter is designed as a self-flushing process, and a filter screen adopts a 500-mesh screen to filter out impurity particles larger than 25 mu m; in the operation process, the oil removal rate is almost zero and the coke powder filtering effect is influenced if the demulsification treatment is not carried out and the direct filtering is carried out; in addition, the coke powder with the particle size of less than 25 mu m has more particles, the total water quality is still poor, and a larger purification space is still left.

(2) Gravity settling method

The method generally adopts an oil-separating sedimentation tank and is designed with automatic oil-collecting and mud-discharging processes. A petroleum refinery of Jinzhou petrochemical company carries out pretreatment research on delayed coking sulfur-containing sewage by adopting a gravity settling method, an oil separation sedimentation tank is adopted, automatic oil receiving and sludge discharging processes are designed, and the oil content can be reduced from 282mg/L to 43 mg/L through free settling for 120 min; the solid content is reduced from 341mg/L to 109 mg/L, which shows that the oil removal effect is still good; however, the oil and solid particles are precipitated at a relatively slow speed, and if the high treatment efficiency is achieved, a long retention time and a correspondingly large oil separation sedimentation tank are required, and a large amount of emulsified coke powder and tar particles cannot be removed through sedimentation, so that the industrial application cannot be realized.

(3) Chemical demulsification sedimentation method

A technology for modifying the pretreatment process of sulfur-containing sewage of a coking unit of an oil refinery of Lanzhou petrochemical company adopts an independently developed composite demulsifier, and an active No. 1 conversion agent, an active No. 2 dispersing agent and an active No. 3 coagulant are respectively added at an air cooler outlet at the top of a fractionating tower, an oil-water separator inlet and an oil-water separator, so that the sedimentation separation process is completed in the oil-water separator, the demulsification speed is higher than that without adding a chemical after adding the chemical, and the separation effect of the oil-water separator is obviously improved; however, the effluent is still in a white emulsified state, and the removal effect of the small-particle emulsified coke powder is not obvious.

(4) Chemical demulsification and flotation method

The jinling petrochemical process adopts a flocculant to carry out chemical demulsification, and then adopts an integrated nitrogen-sealed micro-pressure air flotation device to treat the sulfur-containing sewage and the high-oil-containing sewage of a coking device, and since the actual effluent quality is far higher than the designed effluent quality and the water quality fluctuation range is very large, and due to the reasons of small particle size of tar and coke powder, serious emulsification and the like, the chemical demulsification and flotation separation effect is poor, and the removal requirements of the tar and the coke powder cannot be stably met.

(5) Chemical demulsification and rotational flow method

The process for removing oil and coke powder from the sulfur-containing sewage of delayed coking plant of Luoyang petrochemical company in China adopts the technology of chemical demulsification and cyclone separation to reform the prior pretreatment device, and the industrial device is provided with a demulsifier adding device, a tank water inlet pipeline mixer and a 1000m demulsifier³A sulfur-containing sewage storage tank. The storage tank is internally provided with an inner tank, and a hydraulic cyclone separation and floating oil automatic collection and oil discharge combined device is adopted, and the operation result after modification shows that the oil content in the sulfur-containing sewage is reduced from about 4000 mg/L to about 300mg/L at most, the removal rate of the coke powder is 85 percent, but the problem of unobvious removal effect of small-particle emulsified coke powder still exists.

The chemical demulsification treatment method generally has the defects of high operation cost, unstable demulsification effect, influence on tar and coke powder recovery quality due to the addition of chemical agents, and difficulty in treatment of high sludge production amount as hazardous waste, so that the chemical demulsification treatment method cannot be popularized and applied.

(6) Separation treatment technology for solidified membrane

The research of treating sulfur-containing sewage and high oil-containing sewage by 0.1 mu m ceramic membrane cross-flow filtration technology has been carried out by the Minnan petrochemical industry, tests show that the clarification retention rate of the 0.1 mu m zirconia membrane to the wastewater is more than 95 percent, the effluent is completely clear, and the 0.1 mu m membrane is selected to be feasible for the clarification treatment of the coking wastewater. But the operation pressure difference is 0.1 MPa, the membrane surface flow rate is 3m/s, gap reverse pulse is needed, the operation backflushing time is 1 s, the backflushing interval period is 3min, in addition, an oxidant, alkali and acid liquid are needed to be added every day for chemical cleaning once, so the defects of frequent membrane blockage, frequent chemical cleaning, high energy consumption, low water yield (less than 60 percent), large discharged concentrated solution amount, difficult main treatment by using highly concentrated tar coke powder emulsion and the like exist; after the ceramic membrane filtering device continuously operates for half a month, the membrane filtering flux is attenuated to 70% of the designed membrane filtering flux, and the ceramic membrane tube is scrapped and replaced, so that the ceramic membrane filtering device cannot meet the requirements of actual operating conditions.

Through further research, the fine emulsified coke powder particles mainly exist in a micro-nano charged colloid state, and are represented as follows: the particle size distribution is about 0.1-10 μm, the micro-potential is high and distributed in a disorder state, about-66.2-93.6 mv, and the micro-emulsion is highly emulsified, stably suspended and dispersed in water and is easy to adhere; a large number of engineering practices prove that the microscopic electrical property is difficult to break through various modes such as chemistry, pyrolysis, power consumption, ultrasound, oxidation and the like, the stable suspension dispersion state is difficult to break, effective demulsification is impossible, and the effective demulsification is difficult to remove through modes such as flotation, sedimentation, rotational flow and the like; the situation that the filtering precision is not enough and backwashing is difficult exists in the mechanical filtering; the membrane filtration technology is the most effective treatment means for solving the problem, but the situations of frequent membrane blockage, difficult backwashing and even membrane scrapping exist in the process of adopting the solidified membrane filtration because of strong adhesion of fine emulsified coke powder particles.

Therefore, the utility model provides a membrane technology desorption of precoating postpones the integrated equipment of emulsification burnt powder in the coking sewage, the compound membrane layer of precoating that utilizes on filming the filter element replaces solidification rete, will emulsify the thorough filtering of burnt powder granule, will compound after the stifled membrane precoating rete and hold back the thorough rupture of membrane backwashing of burnt powder granule, film again and filter to solve the problem of solidification rete irreversible pollution.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the technical scheme of the utility model is so realized:

the utility model discloses an integrated equipment of emulsification fine coke in delayed coking sewage of precoating membrane technology desorption, the one deck compound precoating membrane layer of precoating replaces the solidification rete on the filter element of filming, the membrane layer thickness of precoating is 50~100 mu m, the filter fineness scope is 50~100nm, be used for effectively breaking emulsion in the coking wastewater, the thorough filtering of tiny emulsification fine powder particle of sedimentation flotation separation, block up to certain degree when dirty and fall compound precoating membrane layer and the thorough membrane backwashing of intercepting fine powder particle, the filtration of filming again, thereby solve the membrane and strain the problem of irreversible pollution. The specific technical scheme is as follows:

an object of the utility model is to provide a coating film technique desorption of precoating delays the integrated equipment of emulsification coke breeze among the coking sewage, technical scheme as follows:

the utility model discloses a complete equipment of emulsification fine coke in delayed coking sewage of precoating membrane technique desorption, including ultrasonic wave breakdown of emulsion device system (100), malleation totally enclosed flotation settlement integrated processing apparatus system (200), precoating membrane filter equipment system (300) and liquid ring compressor exhaust system (400); the ultrasonic demulsification device system (100) comprises an ultrasonic demulsification tank (101), an ultrasonic transducer (102), an ultrasonic radiator (103), an ultrasonic water inlet regulating valve (104) and an ultrasonic water inlet flow meter (105); the positive-pressure fully-closed flotation sedimentation integrated treatment device system (200) comprises a fully-closed flotation sedimentation treatment equipment box body (201), a multiphase flow nitrogen gas dissolving and releasing system (202), a tar online discharge system (203), a coke powder online discharge system (204) and a communicated exhaust pipeline (205); the pre-coating membrane filtering device system (300) comprises two groups of pre-coating membrane filter function modules (301), a set of shared water inlet and water production system (302), a set of shared film coating system (303) and a set of shared membrane explosion backwashing system (304); the liquid ring compressor exhaust system (400) comprises a liquid ring compressor (401), a pressure switch (402) and a gas-liquid separator (403).

Further, precoat membrane technology desorption delay coking sewage in complete sets of emulsified coke powder, ultrasonic wave irradiator (103) among ultrasonic demulsification device system (100) airtight installation in ultrasonic demulsification jar (101), ultrasonic transducer (102) that can arouse ultrasonic wave irradiator (103) high-frequency vibration to produce ultrasonic field fix the upper end at ultrasonic wave irradiator (103), ultrasonic demulsification jar (101) adopt and to bear highly compressed jar formula structure, the operation process is high-pressure airtight mode, the jar body export has higher excess pressure, ultrasonic demulsification jar (101) entry is equipped with ultrasonic inlet regulating valve (104), ultrasonic inlet flowmeter (105) realize effectively regulating and control the inflow.

Furthermore, the complete equipment of emulsification coke powder in the pre-coating membrane technology desorption delayed coking sewage of the utility model, the whole separation process in the positive pressure totally-enclosed flotation sedimentation integrated processing device system (200) is completed in a totally-enclosed flotation sedimentation processing equipment box body (201), the totally-enclosed flotation sedimentation processing equipment box body (201) adopts a wholly totally-enclosed type, the box body (2001) is of a rectangular structure, and the interior is divided into four functional areas, namely a micro-bubble contact area (20), a flotation sedimentation separation area (21), a water outlet buffer area (27) and a water outlet area (28); the top of the box body (2001) is sealed by a conical guide plate (22), the bottom is sealed by a conical mud collecting hopper (29), and the whole body is welded and formed; an oil and gas collecting cap (23) is arranged at the position of a frustum necking surrounded by the micro-bubble contact zone (20) and the conical guide plate (22) at the top of the flotation sedimentation separation zone (21), and the micro-bubble contact zone and the conical guide plate are connected by flanges; a water and gas collecting cap (24) is arranged at the position of a frustum contraction surrounded by the conical guide plate (22) at the top of the water outlet buffer area (27), and the water and gas collecting cap and the frustum contraction are connected by flanges; a water outlet gas collecting cap (26) is arranged at the position of a frustum contraction surrounded by the conical guide plate (22) at the top of the water outlet area (28), and the water outlet gas collecting cap are connected by flanges; therefore, the fully-closed flotation sedimentation treatment equipment box body (201) strictly meets the requirement of fully-closed operation working conditions under the positive pressure condition from the structural aspect, and the problem of leakage of toxic gas mainly containing hydrogen sulfide does not exist; the water collecting and gas collecting cap (24) is communicated with the middle position of the water outlet and gas collecting cap (26) by a water outlet communicating pipe (25) to form a water passing channel, the operating liquid levels of the micro-bubble contact zone (20), the flotation sedimentation separation zone (21) and the water outlet buffer zone (27) are stably maintained at the water outlet communicating pipe (25), the lower part of the water outlet communicating pipe (25) is taken as a boundary to serve as a water separation area, and the upper part of the water outlet communicating pipe is taken as a gas collecting and exhausting area; the top ends of the oil collecting and gas collecting cap (23), the water collecting and gas collecting cap (24) and the water outlet and gas collecting cap (26) are communicated by a communicated exhaust pipeline (205), so that the requirements of air pressure balance and exhaust gas centralized guide and exhaust of each gas collecting and exhaust area are met.

Furthermore, the complete equipment for removing the emulsified coke powder in the delayed coking sewage by the precoating membrane technology of the utility model is characterized in that in the positive pressure fully-closed flotation sedimentation integrated treatment device system (200), the periphery of the fully-closed flotation sedimentation treatment equipment box body (201) and the supporting facilities thereof are communicated with a multiphase flow nitrogen gas dissolving and releasing system (202), a tar online discharge system (203), a coke powder online discharge system (204) and a communicated exhaust pipeline (205); the multiphase flow nitrogen gas dissolving and releasing system (202) takes 15-20% of the treated water yield from a water outlet area (28) in a fully-closed flotation sedimentation treatment equipment box body (201) by utilizing a multiphase flow gas dissolving pump (2021) as gas dissolving water, and a vacuum adjusting valve (2024) is arranged on a water inlet pipeline of the multiphase flow gas dissolving pump (2021) and can form a relative vacuum degree of-0.01 to-0.02 Mpa behind the valve by adjusting the opening degree of the vacuum adjusting valve; in consideration of safety, the system adopts nitrogen as a flotation gas source, compressed nitrogen with pressure of more than or equal to 500KPa is decompressed to 5-10 Pa through an air inlet pressure regulating valve (2022), and is automatically sucked into a multiphase flow air dissolving pump (2021) by utilizing negative pressure nitrogen generated by a vacuum regulating valve (2024) after being connected into the vacuum regulating valve (2024); after gas and water enter the multiphase flow gas dissolving pump (2021), multi-stage cutting is carried out through a special impeller, the pressure is increased to 0.5-0.6 Mpa, the gas is completely mixed with the gas dissolving water in a highly dispersed state, saturated gas dissolving water is formed in the fully dissolved water, and the gas dissolving process is completed in the pump; an outlet of the multiphase flow dissolved air pump (2021) is connected with an dissolved air release valve (2026) arranged outside the steady flow expansion pipe (2025), saturated dissolved air water discharged from the outlet of the multiphase flow dissolved air pump (2021) enters the steady flow expansion pipe (2025) to further stabilize the flow state and pressure, surplus undissolved air is discharged, finally the pressure is instantly reduced to normal pressure through the external dissolved air release valve (2026), nitrogen dissolved in the saturated dissolved air water is instantly separated out, a large number of micro-bubbles (10-20 mu m) are instantly released in a micro-bubble contact area (20) in a fully-closed flotation sedimentation processing equipment box body (201) and are highly dispersed, the micro-bubbles are fully contacted with coking sewage, and hydrophobic tar in the water is effectively captured and adhered by the micro-bubbles; the online tar discharging system (203) mainly comprises an oil discharge pump (2031), an oil-water interface instrument (2032) and a tar discharging control valve (2033), and is connected with the oil-collecting and gas-collecting cap (23) through a pipeline, the operation process depends on the oil-water interface instrument (2032) to detect the oil-water interface in the oil-collecting and gas-collecting cap (23), and automatically controls the operation of the tar discharging control valve (2033) and the oil discharge pump (2031) according to the oil-collecting thickness, thus completing the online automatic pressurized tar discharging operation; the coke powder online discharge system (204) mainly comprises a coke powder discharge pump (2041) and a coke powder discharge control valve (2042), and is connected with the sludge collecting hopper (29) through a pipeline, and the operation process depends on the timing to automatically control the operation of the coke powder discharge pump (2041) and the coke powder discharge control valve (2042), so that the coke powder online automatic pressurization discharge operation is completed; one end of the communicated exhaust pipeline (205) is connected with the oil collecting and gas collecting cap (23), the water collecting and gas collecting cap (24) and the water outlet and gas collecting cap (26) to meet the requirements of air pressure balance and waste gas centralized guide and discharge of each gas collecting and exhaust area, the other end of the communicated exhaust pipeline is connected with the liquid ring compressor exhaust system (400), on-line automatic pressurization is carried out, the compressed gas is discharged to a low-pressure gas emptying system torch pipe network to carry out waste gas incineration treatment, and the leakage of the toxic gas mainly containing hydrogen sulfide is avoided.

Furthermore, the utility model discloses a complete sets of emulsification coke breeze among delayed coking sewage of precoating membrane technique desorption, precoating membrane filter equipment system (300) set up two sets of precoating membrane filter function modules (301) altogether, each group precoating membrane filter function module (301) allot through the automatic control procedure, can independently filter, explode operation processes such as membrane backwash, film, operation state can be mutually independent between each group of precoating membrane filter function modules (301), also can intercross; the water inlet and production system (302) can be used for filtering operation of two groups of pre-coating film filter functional modules (301) at the same time or in a single group, and water inlet flow rates of different variable-frequency water supply pumps (13) are set in a variable-frequency mode according to the number of groups in operation; the membrane explosion backwashing system (304) and the membrane coating system (303) are set to be used for membrane explosion backwashing and membrane coating operation of a single group of filter modules and are switched one by one, when one group of pre-coating membrane filter function modules (301) carry out membrane explosion backwashing and membrane coating, the other group of pre-coating membrane filter function modules (301) can still maintain a filtration operation state, the pre-coating membrane filter device system (300) is ensured not to stop water during membrane explosion backwashing and membrane coating, and the online filtration operation requirement is met.

The precoating film filter (1) comprises a film coating filter element (2), a fixed flower disc assembly (12) and an ultrasonic oscillation bridge (3), wherein the film coating filter element (2), the fixed flower disc assembly (12) and the ultrasonic oscillation bridge (3) are arranged in the precoating film filter (1); the precoating membrane filter (1) is connected with eight groups of functional valves, namely a water inlet/backwashing drainage switching three-way valve (4), a water production/backwashing water inlet switching three-way valve (5), a water inlet selection valve (6), a coating selection valve (7), a water production/coating circulation switching three-way valve (8), an exhaust valve (9), a backwashing water inlet one-way valve (10) and a gas inlet one-way valve (11), through external pipelines to form a group of complete precoating membrane filter functional modules (301); the pre-coated membrane filter functional module (301) may be independently performed: water inlet, filtration, water production and other operations in the filtration process; air inlet, membrane explosion, water washing, air washing, exhaust, pollution discharge, clean water replacement and other operations in the membrane explosion backwashing process; in the film coating process, operations such as feeding, film coating water outlet circulation and the like are carried out, and the running state between the two groups of pre-coating film filter functional modules (301) is one of two states of mutual independence and mutual intersection.

The precoating membrane filter function module (301) is connected with a water producing port and a film coating circulation port of a water producing/film coating circulation conversion three-way valve (8), a backwashing water outlet of a water inlet/backwashing water discharging conversion three-way valve (4), an interface at the other side of an air inlet one-way valve (11), an interface at the other side of an exhaust valve (9), an interface at the other side of a backwashing water inlet one-way valve (10), an interface at the other side of a water inlet selection valve (6) and an interface at the other side of a film coating selection valve (7) to form an interface of the precoating membrane filter function module (301) and a matched water inlet water producing system (302), a film coating system (303) and a film blasting backwashing system (304) to form a complete precoating membrane filter device system (300).

The film coating filter element (2) is inversely arranged on a corresponding fixing hole of the fixed disc chuck component (12) by a self-tightening and anti-loosening fastener to form good sealing, so that the inner cavity of the film coating filter element (2) is ensured to be a unique filtering water production/water passing channel; fixed flower disc subassembly (12) install inside precoating membrane filter (1) with jar body flange is sealed to pressing from both sides, fixed flower disc subassembly (12) will precoating membrane filter (1) is inside to be cut apart into the district of intaking of lower part and the product water district on upper portion, the straight section of thick bamboo jar wall of precoating membrane filter (1) on be equipped with ultrasonic wave and vibrate bridge (3).

The tank top of the pre-coating film filter (1) is led outPipelineWith water production/backwashing water inlet conversion three-way valve (5)Summary of Mouth pieceA branched outlet pipeline of a backwashing water inlet of the water production/backwashing water inlet conversion three-way valve (5) is respectively connected with a backwashing water inlet one-way valve (10) and a gas inlet one-way valve (11) to meet the requirements of membrane explosion backwashing water inlet and gas inlet; a water production port outlet pipeline water production/film coating circulation conversion three-way valve (8) of the water production/backwashing water inlet conversion three-way valve (5)Of the collection portAnd the connection meets the switching requirements of water discharge and film coating water outlet circulation.

The bottom of the precoating film filter (1) is led outPipelineAnd water inlet/backwashing water drainage conversion three-way valve (4)Summary of Mouth pieceThe water inlet of the water inlet/backwashing drainage switching three-way valve (4) is forked with a water inlet selector valve (6) and a film coating selector valve (7), so that the switching requirements of filtering water inlet and film coating water inlet are met.

The lead-out pipeline at the position of the straight cylinder section of the pre-coating membrane filter (1) close to the fixed disc chuck assembly (12) is connected with the exhaust valve (9), so that the exhaust requirement in the membrane explosion backwashing process is met.

The film coating system (303) comprises a film powder adding device (16), a film coating box (15), a circulating film coating pump (17), a film coating water inlet pipeline (3031) and a film coating water outlet pipeline (3032); the coating water inlet pipeline (3031) is connected with the interface at the other side of the coating selection valve (7), and the coating water outlet pipeline (3032) is connected with the coating circulation port of the water production/coating circulation conversion three-way valve (8), so that an independent and complete circulation coating loop between the coating system (303) and each group of pre-coating membrane filter functional modules (301) is formed, and the sharing requirement is met.

The water inlet and production system (302) comprises a variable-frequency water supply pump (13), a membrane water inlet flow meter (14), a water inlet pipeline (3021) and a water production pipeline (3022); the water inlet pipeline (3021) is connected with the interface at the other side of the water inlet selector valve (6), the water production pipeline (3022) is connected with the water production port of the water production/coating film circulation conversion three-way valve (8), so that an independent and complete water inlet filtering is formed between the water inlet water production system (302) and each group of pre-coating film filter functional modules (300), and the water production is discharged to the outside to meet the shared requirement.

The membrane explosion backwashing system (304) comprises a backwashing water inlet control valve (30), a backwashing water inlet pipeline (3041), a nitrogen gas inlet control valve (31), a nitrogen gas pressure regulating valve (32), a nitrogen gas inlet pipeline (3042), a steam gas inlet control valve (33), a steam pressure regulating valve (34), a steam gas inlet pipeline (3043), a membrane explosion gas inlet pipeline (3044), a gas outlet pipeline (3045) and a sewage discharge pipeline (3046).

A backwashing water inlet pipeline (3041) of the membrane blasting backwashing system (304) is connected with the interface at the other side of the backwashing water inlet one-way valve (10); the nitrogen gas inlet pipeline (3042) and the steam gas inlet pipeline (3043) are converged to the burst film gas inlet pipeline (3044), and the burst film gas inlet pipeline (3044) is connected with the other side interface of the gas inlet one-way valve (11); the exhaust pipeline (3045) is connected with the other side interface of the exhaust valve (9), the sewage discharge pipeline (3046) is connected with a backwashing water outlet of the water inlet/backwashing water discharge conversion three-way valve (4), and the exhaust pipeline (3045) is connected and converged into the sewage discharge pipeline (3046); and independent and complete technological processes of gas-water membrane blasting backwashing, backwashing water drainage and exhaust between the membrane blasting backwashing system (304) and each group of precoated membrane filter functional modules (300) are formed, and the common requirements are met.

The film coating filter element (2) adopts 316L stainless steel metal fiber sintered microporous filter material, the thickness is about 0.2mm, the porosity is 70%, and the pore size of micropores is 3 mu m; the 500-mesh Al₂O₃The nano active body modified membrane powder and the filter aid membrane powder of 200-300 meshes of active coke powder are mixed according to the weight ratio of 1: 10 to form compound film powder as a coating material; the coating amount of the coating material is 10-30 g/m²The dosage range of the method is added, the compound membrane powder is pre-coated on the surface layer of the coating filter element (2) to form a compound pre-coating membrane layer with the thickness of 50-100 mu m, the compound pre-coating membrane layer is a complex of a gel membrane layer and a filter aid membrane layer, and the filtering precision can reach 50-100 nm by combining the adsorption effect, the screening effect and the electrostatic effect 3 of the membrane separation technology.

In order to realize the purpose of ultrasonic demulsification, coking sewage mainly comprising sulfur-containing sewage generated by a fractionating tower top liquid separating tank, blowing condensate water generated by an emptying tower top liquid separating tank and the like directly enters an ultrasonic demulsification device system (100) in an online pressure flow drainage mode, the drainage pressure is about 1000kPa, an ultrasonic transducer (102) utilizes a magnetostriction effect to cause an ultrasonic radiator (103) to vibrate in a pressure-bearing closed tank of an ultrasonic demulsification tank (101), the ultrasonic vibration energy is transmitted along the periphery of the ultrasonic radiator (103) in the radial direction to generate a 20kHz ultrasonic wave field to act on the sewage, and the generated heat effect enables an emulsified oil film to break and a displacement effect to enable oil drops to coalesce and grow and the like, so that the demulsification of emulsified oil drops is realized and the free-phase tar oil drops are separated; an inlet of the ultrasonic demulsification tank (101) is provided with an ultrasonic water inlet adjusting valve (104) and an ultrasonic water inlet flow meter (105) to realize effective regulation and control of water inflow.

The ultrasonic demulsification device system (100) adopts a high-pressure closed mode in the operation process, the outlet of the tank body has higher residual pressure, and treated effluent can directly enter the positive-pressure fully-closed flotation sedimentation integrated treatment device system (200) for subsequent treatment by utilizing the residual pressure of the ultrasonic demulsification tank (101) in an online pressure flow drainage mode.

The positive-pressure fully-closed flotation-sedimentation integrated treatment device system (200) is used for treating coking sewage, the coking sewage enters a fully-closed flotation-sedimentation treatment equipment box body (201), 10-20 mu m high-dispersion nitrogen microbubbles released by a multiphase flow nitrogen dissolved gas and release system (202) are used for carrying out flotation separation on more than or equal to 10 mu m free-phase tar oil drops generated by ultrasonic demulsification, and the large-particle coke powder of more than or equal to 20 mu m is subjected to sedimentation separation and removal by using an inclined plate shallow pool separation principle; the waste tar generated by separation is enriched and concentrated to a certain degree in an oil and gas collecting cap (23), and is automatically pressurized on line to 1000kPa through a tar online discharge system (203) and discharged to a sump oil tank for recycling; large-particle coke powder generated by separation is deposited and concentrated in a conical mud collecting hopper (29), and is automatically pressurized on line at regular time by a coke powder on-line discharge system (204) until the pressure is more than or equal to 300kPa and discharged to a scum recycling system for re-coking; the oil and gas collecting cap (23), the water and gas collecting cap (24) and the water outlet and gas collecting cap (26) are an air chamber space for generating waste gas above the water outlet communicating pipe (25), and the waste gas is communicated with a gas exhaust system (400) arranged at the top end and connected with a liquid ring compressor exhaust line (205) to be automatically pressurized on line to 50-100 kPa and then discharged to a torch pipe network of a low-pressure gas emptying system to be subjected to waste gas incineration treatment, so that the leakage of the hydrogen sulfide which is a main toxic gas is avoided.

The specific operation process of the positive pressure full-closed flotation sedimentation integrated treatment device system (200) comprises the following steps:

A. a multi-phase flow nitrogen gas dissolving and releasing system (202) is matched and arranged in the positive pressure full-closed flotation sedimentation integrated treatment device system (200) and is used for generating micro-nano bubbles required by flotation separation; the multiphase flow nitrogen gas dissolving and releasing system (202) takes part of the discharged water and the sucked nitrogen gas from the water outlet area (28), and the gas is fully dissolved into the water to form saturated gas dissolving water through multistage cutting and pressurization by a special impeller in the multiphase flow gas dissolving pump (2021); after the saturated dissolved-air water passes through an external dissolved-air release valve (2026), a large amount of micro-bubbles are instantaneously released in a micro-bubble contact zone (20) and are highly dispersed, and the micro-bubbles are fully contacted with the coking sewage, and the hydrophobic tar in the water is effectively captured and adhered by the micro-bubbles; after the gas-water contact, the coking sewage overflows upwards to enter a flotation sedimentation separation zone (21), the micron bubbles carry captured tar oil drops and water layers, float upwards along a conical guide plate (22) and enter an oil-collecting gas-collecting cap (23) to be enriched to form an effective oil layer, water flows downwards and is folded to enter an effluent buffer zone (27), the hydraulic condition of good solid-liquid separation is maintained by arranging a rectifying member in the process, large granular coke powder is effectively precipitated and separated, and is deposited and concentrated in a conical sludge collecting hopper (29); after entering an effluent buffer zone (27), the coking sewage after flotation, precipitation and separation treatment flows upwards to enter a water collecting and gas collecting cap (24) and then enters an effluent gas collecting cap (26) and an effluent zone (28) through an effluent communicating pipe (25), and the flotation, precipitation and separation water treatment process is completed;

B. in the water treatment process, a fully-closed flotation sedimentation treatment equipment box body (201) takes a water outlet communicating pipe (25) as an interface of a boundary air chamber and a water chamber, the operating liquid levels of a micro-bubble contact zone (20), a flotation sedimentation separation zone (21) and a water outlet buffer zone (27) are stably maintained at the position of the water outlet communicating pipe (25), an oil collecting and gas collecting cap (23), a water collecting and gas collecting cap (24) and a water outlet gas collecting cap (26) are an air chamber space for generating waste gas above the water outlet communicating pipe (25), the waste gas is communicated by a gas exhaust pipeline (205) arranged at the top end, on one hand, the air pressure balance of each area is maintained, on the other hand, the waste gas is about, the liquid ring compressor exhaust system (400) connected with the communicated exhaust pipeline (205) is used for automatically pressurizing to 50-100 kPa on line and discharging to a low-pressure gas emptying system flare pipe network for waste gas incineration treatment, so that the leakage of toxic gas mainly comprising hydrogen sulfide is avoided;

C. the waste tar generated by separation is enriched and concentrated to a certain degree in an oil and gas collecting cap (23), and is discharged to a sump oil tank for recycling through online automatic pressurization (1000 kPa) of a tar online discharge system (203);

D. the large-particle coke powder generated by separation is deposited and concentrated in a conical mud collecting hopper (29), and is discharged to a scum remill system for re-coking by online automatic pressurization (more than or equal to 300 kPa) at regular time through a coke powder online discharge system (204).

Effluent water treated by the positive-pressure fully-closed flotation and sedimentation integrated treatment device system (200) is collected in an effluent area (28), fine emulsified coke powder particles with the particle size of 0.1-10 mu m mainly account for about 30% of the total amount of coke powder, the coke powder particles are micro-nano, high-charge and high-emulsified colloid particles, and the problems that thorough demulsification and hydraulic separation cannot be realized, the mechanical filtration effect is poor, the filtration and membrane blockage of a solidified membrane are serious, the cleaning is difficult, and even the membrane layer is scrapped exist; finally, the membrane is lifted on line and enters a precoating membrane filtering device system (300) for treatment, a composite precoating membrane layer precoated on the membrane coating filter element (2) is used for replacing a curing membrane layer, emulsified coke powder particles are thoroughly filtered, the composite precoating membrane layer and the intercepted coke powder particles are thoroughly washed away by a membrane explosion, and the membrane is coated again for filtration, so that the problem of irreversible pollution of the curing membrane layer is solved; the water produced by the precoating film filtering device system (300) has the residual pressure of about 500kPa and is directly discharged to a stripping tower for recycling in an on-line pressure flow drainage mode.

The precoating membrane filtering device system (300) adopts a 316L stainless steel metal fiber sintered microporous filter material with the thickness of 0.2mm, the porosity of 70 percent and the pore diameter of 3 mu m as a coating filter element (2); adopts 500 mesh Al₂O₃The nano active body modified membrane powder and the filter aid membrane powder of 200-300 meshes of active coke powder are mixed according to the weight ratio of 1: 10 to form compound film powder as a coating material according to the mass ratio of 10-30 g/m²The dosage range of the method is that the compound membrane powder is pre-coated on the surface layer of the membrane-coated filter element (2) to form a compound pre-coated membrane layer with the thickness of 50-100 mu m, the compound pre-coated membrane layer is a complex of a gel membrane layer and a filter aid membrane layer, the filtering precision can reach 50-100 nm by combining 3 basic principles of adsorption effect, screening effect and static effect of a membrane separation technology, emulsified coke powder particles can be thoroughly filtered, the compound pre-coated membrane layer and the intercepted coke powder particles are thoroughly washed by a bursting membrane after the membrane is blocked, and the membrane-coated filtration is carried out again to solve the problem of irreversible pollution of a solidified membrane layer.

The operation of the precoating membrane filtering device system (300) adopts a cyclic operation mode of 'film coating → filtering → film blasting backwashing', the film blasting backwashing system (304) and the film coating system (303) are set for backwashing and film coating operation of a single group of filter modules and are switched one by one, when one group of precoating membrane filter functional modules (301) carry out film blasting backwashing and film coating, the other group of precoating membrane filter functional modules (301) can still maintain a filtering operation state, so that the water of the precoating membrane filtering device system (300) is not stopped during film blasting and film coating, and the online filtering operation requirement is met; the specific operation process comprises the following steps:

A. the filtering process is completed by conveying the water inlet and water production system (302) to the precoating film filter function module (301), and the specific implementation mode is as follows: after being treated by the positive-pressure fully-closed flotation sedimentation integrated treatment device system (200), the outlet water is collected in a water outlet area (28), lifted by a variable-frequency water supply pump (13), a water inlet selection valve (6) is opened, a water inlet/backwashing drainage switching three-way valve (4) is switched to a water inlet channel, a water production/backwashing water inlet switching three-way valve (5) is switched to a water production port channel, a water production/coating circulation switching three-way valve (8) is switched to a water production channel, coking sewage enters a tank from the bottom of a precoating membrane filter (1), and then flows through a composite precoating layer and a coating filter element (2) from the outer side to complete filtration; the produced water enters the inner cavity of the film coating filter element (2) to be collected, enters a water producing area at the upper part of the fixed disc chuck component (12), is discharged out of the tank from the top end of the upper seal head, has residual pressure of about 500kPa, and is directly discharged to a stripping tower for recycling in an online pressure flow drainage mode; the water inlet and water production system (302) can be used for filtering and running two groups of precoating film filter function modules (301) simultaneously or singly, different variable-frequency water supply pump (13) water inlet flow rates are set according to the frequency conversion of the commissioning group number, a film water inlet flow meter (14) feeds back signals to an ultrasonic water inlet adjusting valve (104) and an ultrasonic water inlet flow meter (105) in the whole running process, the ultrasonic water inlet adjusting valve (104) adjusts the water inlet amount of the ultrasonic demulsification device system (100), so that the flow rates of the film water inlet flow meter (14) and the ultrasonic water inlet flow meter (105) are basically consistent, even if one group of precoating film filter function modules (301) carries out film coating or film bursting backwashing, and the other group of precoating film filter function modules (301) still maintains the filtering running state, the ultrasonic demulsification device system (100), the positive pressure full-closed sedimentation integrated treatment device system (200) can be, The treatment capacity of the pre-coating film filtering device system (300) can be kept consistent, and the requirement of an online treatment mode without water supply interruption is met;

B. the coating process is completed by conveying a coating material to the pre-coating membrane filter functional module (301) in a hydraulic circulation mode through a coating system (303), and the specific implementation mode is as follows: under the dispersion action of an ultrasonic oscillation bridge (3), a circular coating pump (17) is used for lifting, a coating selection valve (7) is opened, a water inlet/backwashing water discharge conversion three-way valve (4) is switched to a water inlet channel, a water production/backwashing water inlet conversion three-way valve (5) is switched to a water production port channel, a water production/coating circulation conversion three-way valve (8) is switched to a coating circulation port channel, a hydraulic circulation process is formed between a coating box (15) and a precoating membrane filter function module (301), in the process, compound membrane powder is dry-fed into the coating box (15) through a membrane powder feeding device (16), a compound precoating membrane layer (11) is coated on the outer surface of a coating filter element (2) to serve as a filter medium under the action of hydraulic circulation filtration, and a coating process is fast, uniform and controllable; the coating system (303) is set for the single group of pre-coating film filter function modules (301) to perform coating operation and is switched one by one, when one group of pre-coating film filter function modules (301) performs coating, the other group of pre-coating film filter function modules (301) still maintain a filtering operation state, and the pre-coating film filter device system (300) is ensured not to stop water during coating;

C. the membrane explosion backwashing process is characterized in that compressed nitrogen, clean production feed water and steam are sequentially conveyed to the precoating membrane filter function module (301) through the membrane explosion backwashing system (304), and an ultrasonic oscillation bridge (3) is adopted for carrying out ultrasonic cleaning and the membrane explosion backwashing system (304) is adopted for carrying out air-water pulse backwashing combination, so that the process requirements of rapid and thorough membrane explosion cleaning, small discharge capacity and controllable process are met; according to the requirement of membrane explosion backwashing, the alternate cycle operation of the processes of 'gas washing membrane explosion → water backwashing → steam purging' can be carried out, so that the membrane explosion backwashing is ensured to be thorough; the cleaning time of the explosion membrane is generally not more than 3min, the operation is simple and controllable, the back washing discharge capacity is small and is not more than 1% of the treated water amount; because adopt compressed nitrogen gas, clean production feedwater, steam to carry out precoating membrane filter function module (301) rupture membrane backwash, guarantee the blowdown of production, carminative innoxious, the blowdown utilizes the residual pressure can directly discharge into the coke chest on line, and waste gas mainly utilizes the residual pressure for nitrogen gas can directly discharge into the atmosphere on line, and concrete implementation process includes:

1) when the transmembrane pressure difference of the pre-coating membrane filter functional module (301) reaches 80-100 KPa, membrane explosion backwashing is required; in the process, a water production/backwashing water inlet conversion three-way valve (5) is switched to a backwashing water inlet channel, a water inlet/backwashing water discharge conversion three-way valve (4) is switched to a backwashing water discharge channel, and an ultrasonic oscillation bridge (3) is always in an open state during membrane blasting backwashing;

2) firstly, gas washing and membrane explosion: the nitrogen pressure regulating valve (32) maintains the nitrogen inlet pressure within the range of 300-500 KPa, the nitrogen inlet control valve (31) is opened, compressed nitrogen instantly enters the inner cavity of the film coating filter element (2) to form an inner-to-outer explosion film, the ultrasonic cleaning effect of the ultrasonic oscillation bridge (3) is combined, the composite precoated film layer and the intercepted coke powder particles on the surface layer of the film coating filter element (2) are completely exploded by the compressed gas and fall into sewage at the lower part of the fixed disc chuck component (12) in the precoated film filter (1), and meanwhile, the sewage is discharged out of the precoated film filter (1) by the compressed nitrogen through the sewage discharge pipeline (3046) to complete the gas washing and explosion film process;

3) then water backwashing is carried out: closing the nitrogen gas inlet control valve (31), opening the backwashing water inlet control valve (30), allowing clean production feed water to enter an inner cavity of the film coating filter element (2) to form water cleaning from inside to outside, and combining the ultrasonic cleaning action of the ultrasonic oscillation bridge (3), washing the film coating filter element (2) completely, continuously discharging water from a sewage discharge pipeline (3046) in the process, completely replacing visceral water in the inner tank of the precoating film filter (1) and finishing the water backwashing process;

4) then, steam purging is carried out: closing the nitrogen gas inlet control valve (31) and the backwashing water inlet control valve (30), maintaining the steam inlet pressure within the range of 500-800 KPa by the steam pressure regulating valve (34), opening the steam gas inlet control valve (33), allowing steam to instantly enter the inner cavity of the film coating filter element (2) to form steam purging from inside to outside, combining the ultrasonic cleaning effect of the ultrasonic oscillation bridge (3), completely blowing off a small amount of oily impurity particles with strong adhesiveness in the film coating filter element (2) by high-temperature steam, and simultaneously blowing off the particles adhered to the tank wall of the precoating film filter (1) by the steam, so that the cleaning is as early as possible, and the steam purging process is completed;

5) after the final membrane-blasting backwashing is finished, closing the nitrogen gas inlet control valve (31), closing the steam inlet control valve (33), closing and opening the backwashing water inlet control valve (30), closing the ultrasonic oscillation bridge (3), switching the water inlet/backwashing drainage switching three-way valve (4) to a water inlet channel, opening the exhaust valve (9), opening the backwashing water inlet control valve (30), filling clean production feed water into the precoating membrane filter (1), discharging redundant gas, and turning to a membrane coating process; the membrane explosion backwashing system (304) is set to be used for backwashing of the membrane explosion of a single group of pre-coating membrane filter functional modules (301) one by one, and when one group of pre-coating membrane filter functional modules (301) is used for backwashing of the membrane explosion, the other group of pre-coating membrane filter functional modules (301) still maintain a filtering operation state, so that the pre-coating membrane filter device system (300) does not stop water during backwashing of the membrane explosion.

The utility model has the advantages that: the complete equipment for removing the emulsified coke powder in the delayed coking sewage by the precoating technology carries out online instant treatment on the coking sewage discharged by the delayed coking device, the treated produced water is pressurized and recycled on line, and the waste gas, tar, coke powder and backwash drainage separated in the treatment process are output to relevant collection points through online instant pressurization, so that the requirements of online treatment working conditions of instant online treatment and recycling of instant online treatment and drainage in the production process of the delayed coking device are met.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a process system flow diagram of an embodiment of the complete equipment for removing emulsified coke powder from delayed coking wastewater by the precoating membrane technology of the present invention;

FIG. 2 is a graph showing the change in transmembrane pressure difference during the operation of the precoat film;

FIG. 3 is the transmembrane pressure difference and membrane flux as a function of the running time during continuous operation of the precoat membrane.

In the figure:

100. an ultrasonic demulsification device system;

101. an ultrasonic demulsification tank; 104. an ultrasonic water inlet regulating valve; 105 an ultrasonic water inflow flowmeter; 102. an ultrasonic transducer; 103. an ultrasonic radiator;

200. a positive pressure fully-closed flotation sedimentation integrated treatment device system;

201. a fully-closed flotation sedimentation treatment equipment box body; 20. a microbubble contact zone; 21. a flotation sedimentation separation area; 2010. a box body main body; 22. a conical deflector; 23. an oil and gas collecting cap; 24. a water and gas collecting cap; 25. a water outlet communicating pipe; 26. a water outlet gas collecting cap; 27. a water outlet buffer zone; 28. a water outlet area; 29. a conical mud collection hopper;

202. a multiphase flow nitrogen gas dissolving and releasing system; 2021. a multiphase flow dissolved air pump; 2022. an air inlet pressure regulating valve; 2024. a vacuum regulating valve; 2023. an intake air flow meter; 2025. a steady flow expansion tube; 2026. a dissolved air release valve;

203. a tar online discharge system; 2031. an oil discharge pump; 2032. an oil-water interface instrument; 2033; a tar discharge control valve;

204. a coke powder on-line discharge system; 2041. a coke powder discharge pump; 2042. a coke powder discharge control valve;

205. the exhaust pipeline is communicated; 2051. a vacuum relief valve; 2052. a safety valve; 2053. the exhaust pipeline is communicated;

300. a precoat membrane filtration device system;

301. a pre-coating membrane filter function module; 1. a precoat membrane filter; 2. coating a film and filtering; 3. an ultrasonic oscillation bridge; 4. a water inlet/backwashing water discharge conversion three-way valve; 5. a water production/backwashing water inlet conversion three-way valve; 6. a water inlet selector valve; 7. a coating film selection valve; 8. a water production/film coating circulation conversion three-way valve; 9. an exhaust valve; 10. backwashing the water inlet check valve; 11. an air inlet check valve; 12. fixing the faceplate assembly;

302. a water inlet and water production system; 13. a variable frequency water supply pump; 14. a membrane inflow flowmeter; 3021. a membrane water inlet line; 3022. a membrane water production pipeline;

303. a film coating system; 15. coating a film box; 16. a membrane powder feeding device; 17. a circulating film coating pump; 3031. a water inlet pipeline for film coating; 3032. a film coating water outlet pipeline;

304. a membrane explosion backwashing system; 30. a backwash water inlet control valve; 3041. backwashing the water inlet pipeline; 31. a nitrogen gas inlet control valve; 32. a nitrogen pressure regulating valve; 3042. a nitrogen inlet pipeline; 33. a steam inlet control valve; 34. a steam pressure regulating valve; 3043. a steam inlet line; 3044. a burst membrane air inlet pipeline; 3045. an exhaust line; 3046. a sewage draining pipeline;

400. a liquid ring compressor exhaust system;

401. a liquid ring compressor; 402. a pressure switch; 403. a gas-liquid separator.

Detailed Description

The technical solution in the embodiment of the present invention will be further described with reference to the accompanying drawings. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments.

As shown in figure 1, the utility model discloses in the complete sets of emulsification coke powder among the delayed coking sewage of well precoating membrane technology desorption, including one set of ultrasonic demulsification device system 100, one set of malleation totally enclosed flotation settlement integrated processing apparatus system 200, one set of precoating membrane filter equipment system 300, one set of liquid ring compressor exhaust system 400.

As shown in fig. 1, the ultrasonic demulsification device system 100 of the present invention includes an ultrasonic demulsification tank 101, an ultrasonic transducer 102, an ultrasonic radiator 103, an ultrasonic water inlet adjusting valve 104, and an ultrasonic water inlet flow meter 105.

Furthermore, an ultrasonic radiator 103 in the ultrasonic demulsification device system 100 is hermetically installed in an ultrasonic demulsification tank 101, an ultrasonic transducer 102 capable of exciting the ultrasonic radiator 103 to vibrate at high frequency to generate an ultrasonic field is fixed at the upper end of the ultrasonic radiator 103, the ultrasonic demulsification tank 101 is of a tank type structure capable of bearing high pressure, the operation process is a high-pressure airtight mode, the outlet of the tank body has high residual pressure, and the inlet of the ultrasonic demulsification tank 101 is provided with an ultrasonic water inlet regulating valve 104 and an ultrasonic water inlet flow meter 105 to effectively regulate and control the water inlet amount.

As shown in fig. 1, in the middle-positive pressure fully-enclosed flotation sedimentation integrated treatment device system 200 of the present invention, the system comprises a fully-enclosed flotation sedimentation treatment equipment box 201, a multiphase flow nitrogen gas dissolving and releasing system 202, a tar online discharge system 203, a coke powder online discharge system 204, and a communicated exhaust pipeline 205.

Further, the totally-enclosed flotation sedimentation treatment equipment box 201 adopts an integral totally-enclosed type, the box main body 2001 is of a rectangular structure, and the interior of the box main body is divided into four functional areas, namely a micro-bubble contact area 20, a flotation sedimentation separation area 21, a water outlet buffer area 27 and a water outlet area 28; the top of the box body 2001 is sealed by a conical guide plate 22, and the bottom is sealed by a conical mud collecting hopper 29, and the whole body is welded and formed; an oil and gas collecting cap 23 is arranged at the position of a frustum necking surrounded by the micro-bubble contact zone 20 and the conical guide plate 22 at the top of the flotation sedimentation separation zone 21, and the micro-bubble contact zone and the conical guide plate are connected by flanges; a water and gas collecting cap 24 is arranged at the position of a frustum necking surrounded by the conical guide plate 22 at the top of the water outlet buffer zone 27, and the water and gas collecting cap and the frustum necking are connected by flanges; a water outlet gas collecting cap 26 is arranged at the position of a frustum necking surrounded by the conical guide plate 22 at the top of the water outlet area 28, and the water outlet gas collecting cap and the frustum necking are connected by flanges; thus, the fully-closed flotation sedimentation treatment equipment box 201 strictly meets the requirement of fully-closed operation working conditions under the positive pressure condition structurally, and the problem of leakage of toxic gas mainly containing hydrogen sulfide does not exist; the middle positions of the water collecting and gas collecting cap 24 and the water outlet and gas collecting cap 26 are communicated by a water outlet communicating pipe 25 to form a water passing channel, the operating liquid levels of the micro-bubble contact zone 20, the flotation and sedimentation separation zone 21 and the water outlet buffer zone 27 are stably maintained at the position of the water outlet communicating pipe 25, the lower part of the water outlet communicating pipe 25 is a water separation area, and the upper part of the water outlet communicating pipe is a gas collecting and exhausting area; the top ends of the oil collecting and gas collecting cap 23, the water collecting and gas collecting cap 24 and the water outlet and gas collecting cap 26 are communicated by a communicated exhaust pipeline 205, so that the requirements of air pressure balance and exhaust gas centralized guide and exhaust of each gas collecting and exhaust area are met.

Further, the periphery of the box 201 of the fully-closed flotation sedimentation treatment equipment is communicated with a matched facility by a multiphase flow nitrogen gas dissolving and releasing system 202, a tar online discharging system 203, a coke powder online discharging system 204 and a communicated exhaust pipeline 205.

Further, the multiphase flow nitrogen gas dissolving and releasing system 202 takes 15-20% of the treated water yield from the water outlet area 28 in the totally-enclosed flotation sedimentation treatment equipment box 201 by using a special multiphase flow gas dissolving pump 2021 as gas dissolving water, and a vacuum adjusting valve 2024 is arranged on a water inlet pipeline of the multiphase flow gas dissolving pump 2021, and the opening degree of the vacuum adjusting valve 2024 can form a vacuum degree of-0.01-0.02 MPa after the valve is opened; in consideration of safety, the system adopts nitrogen as a flotation gas source, compressed nitrogen with pressure of more than or equal to 500KPa is decompressed to 5-10 Pa through the air inlet pressure regulating valve 2022, and is automatically sucked into the multiphase flow dissolved air pump 2021 by utilizing negative pressure nitrogen generated by the vacuum regulating valve 2024 after being connected to the vacuum regulating valve 2024; after the gas and water enter the multiphase flow gas dissolving pump 2021, the multiphase flow gas dissolving pump is subjected to multistage cutting by a special impeller and pressurized to 0.5-0.6 Mpa, the gas and the gas dissolving water are completely mixed in a highly dispersed state, saturated gas dissolving water is formed in the fully dissolved water, and the gas dissolving process is finished in the pump; saturated dissolved air water discharged from the outlet of the multiphase flow dissolved air pump 2021 enters the steady flow expansion pipe 2025 to further stabilize the flow state and pressure and remove redundant undissolved air, finally the pressure is instantly reduced to normal pressure through the external dissolved air release valve 2026, nitrogen dissolved in the saturated dissolved air water is instantly separated out, a large amount of micro bubbles 10-20 μm and highly dispersed are instantly released in a micro bubble contact area 20 in the fully-closed flotation sedimentation treatment equipment box 201, and the micro bubbles are fully contacted with coking sewage, so that hydrophobic tar in water is effectively captured and adhered.

Further, the online tar discharge system 203 mainly includes an oil discharge pump 2031, an oil-water interface meter 2032, and a tar discharge control valve 2033, and is connected to the oil and gas collecting cap 23 through a pipeline, and during the operation, the oil-water interface meter 2032 detects the oil-water interface in the oil and gas collecting cap 23, and automatically controls the operation of the tar discharge control valve 2033 and the oil discharge pump 2031 according to the oil collection thickness, thereby completing the online automatic pressurized tar discharge operation.

Further, the coke powder online discharge system 204 mainly includes a coke powder discharge pump 2041 and a coke powder discharge control valve 2042, which are connected to the sludge collection hopper 29 through pipelines, and the operation process automatically controls the operation of the coke powder discharge pump 2041 and the coke powder discharge control valve 2042 at regular time, thereby completing the coke powder online automatic pressurization discharge operation.

Further, one end of the communicated exhaust pipeline 205 is connected with the oil and gas collecting cap 23, the water and gas collecting cap 24 and the water outlet and gas collecting cap 26 to meet the requirements of air pressure balance and waste gas centralized guide and discharge of each gas collecting and discharging area, and the other end of the communicated exhaust pipeline is connected with the liquid ring compressor exhaust system 400 to perform online automatic pressurization and external discharge to a low-pressure gas emptying system flare pipeline network for waste gas incineration treatment, so that the leakage of toxic gas mainly comprising hydrogen sulfide is avoided.

As shown in fig. 1, the pre-coating membrane filtering device system 300 of the present invention includes two sets of pre-coating membrane filter function modules 301, a set of common water inlet and water production system 302, a set of common membrane coating system 303, and a set of common membrane explosion and backwashing system 304.

Further, the film coating filter element 2, the fixed disc chuck assembly 12 and the ultrasonic oscillation bridge 3 are arranged in the pre-coating film filter 1, and the assembly mode is as follows: the film coating filter element 2 is inversely arranged on a corresponding fixing hole of the fixed flower disc component 12 by a self-tightening anti-loose fastener to form good sealing, so that the inner cavity of the film coating filter element 2 is ensured to be a unique water producing/passing channel; fixed flower disc subassembly 12 install inside precoating membrane filter 1 with jar body flange seal butt clamp, fixed flower disc subassembly 12 will precoating membrane filter 1 is inside to be cut apart into the intake zone of lower part and the product water district on upper portion, be equipped with ultrasonic wave vibration bridge 3 on precoating membrane filter 1's the straight section tank wall.

Further, the precoating membrane filter 1 is connected with eight groups of functional valves, namely a water inlet/backwashing water discharge conversion three-way valve 4, a water production/backwashing water inlet conversion three-way valve 5, a water inlet selection valve 6, a coating selection valve 7, a water production/coating circulation conversion three-way valve 8, an exhaust valve 9, a backwashing water inlet one-way valve 10 and a gas inlet one-way valve 11 through external pipelines to form a group of complete precoating membrane filter functional modules 301; the assembly mode is as follows:

A. the tank top leading-out pipeline of the precoated membrane filter 1 is connected with a gathering port of a water production/backwashing water inlet conversion three-way valve 5, and the backwashing water inlet branching leading-out pipeline of the water production/backwashing water inlet conversion three-way valve 5 is respectively connected with a backwashing water inlet one-way valve 10 and an air inlet one-way valve 11, so that the requirements of membrane explosion backwashing water inlet and air inlet are met; a water production port of the water production/backwashing water inlet conversion three-way valve 5 is led out of a gathering port of a pipeline water production/film coating circulation conversion three-way valve 8 for connection, so that the switching requirement of water production drainage and film coating water outlet circulation is met;

B. tank bottom leading-out of precoated membrane filter 1PipelineAnd water inlet/backwashing drainage switching three-way valve 4Of the collection portThe water inlet of the water inlet/backwashing drainage switching three-way valve 4 is forked with a water inlet selector valve 6 and a coating selector valve 7, so that the switching requirement of filtering water inlet and coating water inlet is met;

C. the leading-out pipeline of the straight cylinder section of the pre-coating membrane filter 1 close to the fixed disk chuck component 12 is connected with the exhaust valve 9, so that the exhaust requirement in the membrane explosion backwashing process is met.

Further, the pre-coat membrane filter function module 301 may be independently performed: water inlet, filtration, water production and other operations in the filtration process; air inlet, membrane explosion, water washing, air washing, exhaust, pollution discharge, clean water replacement and other operations in the membrane explosion backwashing process; in the process of coating, the operations of feeding, coating water circulation and the like are performed, and the operation states of the two groups of pre-coating film filter functional modules 301 can be independent from each other or can be crossed with each other.

Further, the precoating membrane filter function module 301 uses a water producing port and a film coating circulation port of the water producing/film coating circulation conversion three-way valve 8, a backwashing water outlet port of the water inlet/backwashing water discharge conversion three-way valve 4, another side interface of the air inlet one-way valve 11, another side interface of the exhaust valve 9, another side interface of the backwashing water inlet one-way valve 10, another side interface of the water inlet selection valve 6 and another side interface of the film coating selection valve 7 as interface interfaces of the precoating membrane filter function module 301, and is connected with a matched water inlet water producing system 302, a film coating system 303 and an explosion membrane backwashing system 304 to form a complete precoating membrane filter device system 300; the assembly mode is as follows:

A. the water inlet and production system 302 comprises a variable frequency water supply pump 13, a membrane water inlet flow meter 14, a water inlet pipeline 3021 and a water production pipeline 3022; the water inlet pipeline 3021 is connected with the interface at the other side of the water inlet selector valve 6, and the water production pipeline 3022 is connected with the water production port of the water production/coating film circulation conversion three-way valve 8, so that the water inlet and water production system 302 and each group of precoated film filter functional modules 300 form an independent and complete water inlet filtration process, and the water production process meets the shared requirements;

B. the film coating system 303 comprises a film powder adding device 16, a film coating box 15, a circulating film coating pump 17, a film coating water inlet pipeline 3031 and a film coating water outlet pipeline 3032; the coating water inlet pipeline 3031 is connected with the interface at the other side of the coating selection valve 7, and the coating water outlet pipeline 3032 is connected with the coating circulation port of the water production/coating circulation conversion three-way valve 8, so that an independent and complete circulation coating loop between the coating system 303 and each group of pre-coating film filter functional modules 301 is formed, and the sharing requirement is met;

C. the membrane explosion backwashing system 304 comprises a backwashing water inlet control valve 30, a backwashing water inlet pipeline 3041, a nitrogen gas inlet control valve 31, a nitrogen gas pressure regulating valve 32, a nitrogen gas inlet pipeline 3042, a steam gas inlet control valve 33, a steam pressure regulating valve 34, a steam gas inlet pipeline 3043, a membrane explosion gas inlet pipeline 3044, a gas outlet pipeline 3045 and a sewage discharge pipeline 3046; a backwashing water inlet pipeline 3041 of the membrane blasting backwashing system 304 is connected with the other side interface of the backwashing water inlet one-way valve 10; the nitrogen inlet pipeline 3042 and the steam inlet pipeline 3043 are joined to a burst film inlet pipeline 3044, and the burst film inlet pipeline 3044 is connected with the other side interface of the inlet check valve 11; the exhaust pipeline 3045 is connected with the other side interface of the exhaust valve 9, the sewage discharge pipeline 3046 is connected with a backwashing water outlet of the water inlet/backwashing water discharge conversion three-way valve 4, and the exhaust pipeline 3045 is connected and converged into the sewage discharge pipeline 3046; and independent and complete technological processes of gas-water membrane blasting backwashing, water discharging and exhausting between the membrane blasting backwashing system 304 and each group of precoated membrane filter functional modules 300 are formed, and the common requirements are met.

Further, the precoating membrane filtration device system 300 is provided with two groups of precoating membrane filter function modules 301, each group of precoating membrane filter function modules 301 are allocated through an automatic control program, and can independently perform the operation processes of filtration, membrane explosion backwashing, film coating and the like, and the operation states of the groups of precoating membrane filter function modules 301 can be mutually independent or mutually crossed; the water inlet and water production system 302 can be used for filtering operation of two groups of pre-coating film filter function modules 301 at the same time or in a single group, and different water inlet flow rates of the variable-frequency water supply pump 13 are set according to the number of groups in operation in a variable-frequency mode; the membrane bursting backwashing system 304 and the membrane coating system 303 are set to be used for membrane bursting backwashing and membrane coating operation of a single group of filter modules and are switched one by one, when one group of pre-coating membrane filter function modules 301 is used for membrane bursting backwashing and membrane coating, the other group of pre-coating membrane filter function modules 301 can still maintain a filtering operation state, the pre-coating membrane filter device system 300 is ensured not to stop water during membrane bursting backwashing and membrane coating, and the online filtering operation requirement is met.

As shown in fig. 1, the utility model discloses well liquid ring compressor exhaust system 400 includes liquid ring compressor 401, pressure switch 402, vapour and liquid separator 403, through the pipeline with the supporting UNICOM exhaust pipe line 205 of totally enclosed flotation settlement processing equipment box 201 is connected, waste gas gathers behind the certain pressure switch 402 control liquid ring compressor 401 and starts, the working solution in vapour and liquid separator 403 gets into in the liquid ring compressor 401 by eccentric rotatory impeller throw around, arouse the volumetric change of compressor inner chamber to realize breathing in, the process of compression exhaust, carry out on-line automatic pressurization with waste gas and arrange outside to low pressure gas blowdown system pipe network torch and carry out exhaust incineration processing to 50~100 kPa.

The method for removing the emulsified coke powder in the delayed coking sewage by the precoating membrane technology comprises the following steps:

A. the method is characterized in that coking sewage mainly comprising sulfur-containing sewage generated by a fractionating tower top liquid separating tank and blowing condensate water generated by an emptying tower top liquid separating tank directly enters an ultrasonic demulsification device system 100 in an online pressure flow drainage mode, the drainage pressure is about 1000kPa, in a pressure-bearing closed tank of an ultrasonic demulsification tank 101, an ultrasonic transducer 102 utilizes a magnetostrictive effect to cause an ultrasonic radiator 103 to vibrate in an over-frequency mode, ultrasonic vibration energy is transmitted along the periphery of the ultrasonic radiator 103 in a radial direction to generate a 20KHZ ultrasonic wave field to act on the sewage, and the generated thermal effect enables an emulsified oil film to break and a displacement effect enables oil drops to coalesce and enlarge and the like, so that demulsification of emulsified oil drops is realized, and free-phase tar oil drops are; an ultrasonic water inlet adjusting valve 104 and an ultrasonic water inlet flow meter 105 are arranged at the inlet of the ultrasonic demulsification tank 101 to realize effective regulation and control of water inlet amount;

B. the ultrasonic demulsification device system 100 adopts a high-pressure closed mode in the operation process, the outlet of the tank body has higher residual pressure, and the treated effluent can directly enter the positive-pressure fully-closed flotation sedimentation integrated treatment device system 200 for subsequent treatment by utilizing the residual pressure of the ultrasonic demulsification tank 101 in an online pressure flow drainage mode;

the positive-pressure fully-closed flotation-sedimentation integrated treatment device system 200 is used for treating coking sewage in a process that the coking sewage enters a fully-closed flotation-sedimentation treatment equipment box 201, free-phase tar oil drops with the particle size of more than or equal to 10 microns generated by ultrasonic demulsification are subjected to flotation separation and removal by using 10-20 micron highly-dispersed nitrogen microbubbles released by a multiphase flow nitrogen dissolved gas and release system 202, and large-particle coke powder with the particle size of more than or equal to 20 microns is subjected to sedimentation separation and removal by using an inclined plate shallow pool separation principle; the waste tar generated by separation is enriched and concentrated to a certain degree in the oil and gas collecting cap 23, and is automatically pressurized on line to 1000kPa through the tar on-line discharge system 203 and discharged to a sump oil tank for recycling; the separated large-particle coke powder is deposited and concentrated in a conical mud collecting hopper 29, and is automatically pressurized on line at regular time by a coke powder online discharge system 204 until the pressure is more than or equal to 300kPa and is discharged to a scum remill system for re-coking; the oil and gas collecting cap 23, the water and gas collecting cap 24 and the water and gas collecting cap 26 are an air chamber space for generating waste gas above the water and gas outlet communicating pipe 25, the waste gas is communicated by a gas exhaust line 205 arranged at the top end and is connected to a liquid ring compressor exhaust system 400 for on-line automatic pressurization until 50-100 kPa is discharged to a low-pressure gas emptying system torch pipe network for waste gas incineration treatment, and leakage of hydrogen sulfide as a main toxic gas is avoided;

C. effluent after being treated by the positive-pressure fully-closed flotation and sedimentation integrated treatment device system 200 is collected in the effluent area 28, fine emulsified coke powder particles with the particle size of 0.1-10 mu m mainly account for about 30% of the total amount of coke powder, and the effluent is micro-nano, high-charge and high-emulsified colloidal particles, and has the problems of incapability of thorough emulsion breaking, difficulty in hydraulic separation, poor mechanical filtration effect, serious filtration and membrane blockage of a solidified membrane, difficulty in cleaning, even rejection of a membrane layer and the like; finally, the membrane is lifted on line and enters a precoating membrane filtering device system 300 for treatment, a composite precoating membrane layer precoated on the membrane-coated filtering element 2 is used for replacing a curing membrane layer, emulsified coke powder particles are thoroughly filtered, the composite precoating membrane layer and the intercepted coke powder particles are thoroughly burst and washed away by a membrane after the membrane is blocked, and the membrane is re-coated and filtered, so that the problem of irreversible pollution of the curing membrane layer is solved; the water produced by the pre-coating film filtering device system 300 has residual pressure of about 500kPa and is directly discharged to a stripping tower for recycling in an on-line pressure flow drainage mode;

the precoating membrane filter device system 300 adopts a 316L stainless steel metal fiber sintered microporous filter material with the thickness of 0.2mm, the porosity of 70 percent and the pore diameter of 3 mu m as a coating filter element 2; adopts 500 mesh Al₂O₃The nano active body modified membrane powder and the filter aid membrane powder of 200-300 meshes of active coke powder are mixed according to the weight ratio of 1: 10 to form compound film powder as a coating material according to the mass ratio of 10-30 g/m²The dosage range of the method is that the compound membrane powder is pre-coated on the surface layer of the membrane-coated filter element 2 to form a compound pre-coated membrane layer with the thickness of 50-100 mu m, the compound pre-coated membrane layer is a complex of a gel membrane layer and a filter aid membrane layer, the filtering precision can reach 50-100 nm by combining 3 basic principles of adsorption effect, screening effect and static effect of a membrane separation technology, emulsified coke powder particles can be thoroughly filtered, the compound pre-coated membrane layer and the intercepted coke powder particles are thoroughly washed by an explosion membrane after the membrane is blocked, and the membrane-coated filtration is carried out again to solve the problem of irreversible pollution of a cured membrane layer;

the operation of the precoating membrane filtering device system 300 adopts a cyclic operation mode of 'film coating → filtering → film blasting backwashing', the film blasting backwashing system 304 and the film coating system 303 are set for backwashing and film coating operation of a single group of filter modules and are switched one by one, one group of precoating membrane filter functional modules 301 is subjected to film blasting backwashing and film coating, the other group of precoating membrane filter functional modules 301 can still maintain a filtering operation state, the water of the precoating membrane filtering device system 300 is not stopped during the film blasting and film coating, and the online filtering operation requirement is met.

Further, the method for removing the emulsified coke powder in the delayed coking sewage by the pre-coating membrane technology comprises the following steps:

in the step B, a multiphase flow nitrogen gas dissolving and releasing system 202 is arranged in the positive pressure fully-closed flotation sedimentation integrated processing device system 200 in a matching manner and is used for generating micro-nano bubbles required by flotation separation; the multiphase flow nitrogen gas dissolving and releasing system 202 takes part of the effluent water and the sucked nitrogen gas from the effluent area 28, and the gas is cut in a multistage manner and pressurized by a special impeller in the multiphase flow gas dissolving pump 2021, so that the gas is fully dissolved in the water to form saturated gas dissolving water; after the saturated dissolved-air water passes through the external dissolved-air release valve 2026, a large amount of micro-bubbles are instantaneously released in the micro-bubble contact zone 20, the micro-bubbles are highly dispersed and fully contacted with the coking sewage, and the hydrophobic tar in the water is effectively captured and adhered by the micro-bubbles; after the gas-water contact, the coking sewage overflows upwards to enter a flotation sedimentation separation zone 21, the micron bubbles carry captured tar oil drops and water layers, float upwards along a conical guide plate 22 to enter an oil-collecting gas-collecting cap 23 for enrichment to form an effective oil layer, water flows downwards and is folded to enter an effluent buffer zone 27, the hydraulic condition of good solid-liquid separation is maintained by arranging a rectifying member in the process, and large-particle coke powder is effectively precipitated and separated and is deposited and concentrated in a conical mud-collecting hopper 29; after entering the effluent buffer zone 27, the coking sewage after flotation, precipitation and separation treatment flows upwards to enter the water collecting and gas collecting cap 24 and then enters the effluent gas collecting cap 26 and the effluent zone 28 through the effluent communicating pipe 25, and the flotation, precipitation and separation water treatment process is completed;

in step B, the totally-enclosed flotation sedimentation treatment equipment box 201 takes the water outlet communicating pipe 25 as the interface of the air chamber and the water chamber in the water treatment process, the operating liquid levels of the micro-bubble contact zone 20, the flotation sedimentation separation zone 21 and the water outlet buffer zone 27 are stably maintained at the position of the water outlet communicating pipe 25, the oil and gas collecting cap 23, the water collecting and gas collecting cap 24 and the water outlet and gas collecting cap 26 are air chamber spaces for generating waste gas above the water outlet communicating pipe 25, the waste gas is communicated by a gas exhaust pipe 205 arranged at the top end, on one hand, the air pressure balance of each area is maintained, on the other hand, the waste gas is about 5-10 kPa after accumulating a certain pressure, a pressure switch 402 controls the liquid ring compressor 401 to start, working liquid in the gas-liquid separator 403 enters the liquid ring compressor 401 and is thrown to the periphery by an eccentrically rotating impeller, the change of the volume of the inner cavity of the compressor is caused, the processes of gas suction and compression and exhaust are realized, and the waste gas is automatically pressurized on line to 50-100 kPa and is discharged to a low-pressure gas emptying system;

the exhaust system 400 of the liquid ring compressor connected with the communicated exhaust line 205 is used for automatically pressurizing to 50-100 kPa on line and discharging to a flare pipe network of a low-pressure gas emptying system for waste gas incineration treatment, so that the leakage of toxic gas mainly comprising hydrogen sulfide is avoided;

in the step B, the waste tar generated by separation is enriched and concentrated to a certain degree in the oil and gas collecting cap 23, and is automatically pressurized on line to 1000kPa through the tar online discharge system 203 and discharged to a sump oil tank for recycling;

in the step B, the large-particle coke powder generated by separation is deposited and concentrated in the conical mud collecting hopper 29, and is automatically pressurized on line at regular time by the coke powder on-line discharge system 204 until the pressure is more than or equal to 300kPa and discharged to a scum recycling system for re-coking;

in step C, the filtration process is completed by delivering the feed water to the precoat membrane filter function module 301 through the feed water production system 302, and the specific implementation manner is as follows: the effluent water treated by the positive pressure full-closed flotation sedimentation integrated treatment device system 200 is collected in the effluent area 28, lifted by a variable frequency water supply pump 13, the water inlet selector valve 6 is opened, the water inlet/backwashing drainage switching three-way valve 4 is switched to a water inlet channel, the water production/backwashing water inlet switching three-way valve 5 is switched to a water production port channel, the water production/coating circulation switching three-way valve 8 is switched to a water production channel, the coking sewage enters the tank from the bottom of the precoating membrane filter 1, and then flows through the composite precoating membrane layer and the coating filter element 2 from the outer side to complete filtration; the produced water enters the inner cavity of the film coating filter element 1 to be collected, enters a water producing area at the upper part of the fixed disc chuck component 12, is discharged out of the tank from the top end of the upper seal head, has residual pressure of about 500kPa, and is directly discharged to a stripping tower for recycling in an online pressure flow drainage mode; the water inlet and water production system 302 can be used for filtering operation of two groups of pre-coating film filter function modules 301 at the same time or in a single group, the water inlet flow of different variable-frequency water supply pumps 13 is set according to the frequency conversion of the operation group number, a membrane water inlet flow meter 14 feeds back signals to an ultrasonic water inlet adjusting valve 104 and an ultrasonic water inlet flow meter 105 in the whole operation process, the ultrasonic water inlet adjusting valve 104 adjusts the water inlet flow of the ultrasonic emulsion breaking device system 100, so that the flow of the membrane water inlet flow meter 14 is basically consistent with that of the ultrasonic water inlet flow meter 105, even when one set of the precoat membrane filter function modules 301 is subjected to membrane coating or membrane bursting backwash, the other set of the precoat membrane filter function modules 301 is still maintained in a filtration operation state, the treatment capacities of the ultrasonic demulsification device system 100, the positive-pressure fully-closed flotation-sedimentation integrated treatment device system 200 and the precoating membrane filtration device system 300 can be kept consistent, and the requirement of an online treatment mode without water supply interruption is met;

in step C, the coating process is completed by conveying the coating material to the pre-coating membrane filter function module 301 through the coating system 303 in a hydraulic circulation manner, and the specific implementation manner is as follows: under the dispersion action of the ultrasonic oscillation bridge 3, lifting by a circulating coating pump 17, opening a coating selection valve 7, switching a water inlet/backwashing drainage conversion three-way valve 4 to a water inlet channel, switching a water production/backwashing water inlet conversion three-way valve 5 to a water production port channel, and switching a water production/coating circulation conversion three-way valve 8 to a coating circulation port channel, so that a hydraulic circulation process is formed between a coating box 15 and a precoating membrane filter function module 301, in the process, compound membrane powder is added into the coating box 15 through a membrane powder adding device 16, a layer of compound precoating membrane layer 11 is coated on the outer surface of a coating filter element 2 under the action of hydraulic circulation filtration to serve as a filter medium, the coating time is generally not more than 3min, and the coating process is rapid, uniform and controllable; the coating system 303 is set for the single group of precoat film filter function modules 301 to perform coating operation and switch one by one, when one group of precoat film filter function modules 301 performs coating, the other group of precoat film filter function modules 301 still maintains the filtration operation state, and the precoat film filter device system 300 is ensured not to stop water during coating;

in the step C, the membrane explosion backwashing process is to sequentially convey compressed nitrogen, clean production feed water and steam to the precoating membrane filter function module 301 through the membrane explosion backwashing system 304, and adopt the ultrasonic oscillation bridge 3 to carry out ultrasonic cleaning and the membrane explosion backwashing system 304 to carry out air-water pulse backwashing combined mode, so that the process requirements of rapid and thorough membrane explosion cleaning, small discharge capacity and controllable process are realized; according to the requirement of membrane explosion backwashing, the alternate cycle operation of the processes of 'gas washing membrane explosion → water backwashing → steam purging' can be carried out, so that the membrane explosion backwashing is ensured to be thorough; the cleaning time of the explosion membrane is generally not more than 3min, the operation is simple and controllable, the back washing discharge capacity is small and is not more than 1% of the treated water amount; because adopt compressed nitrogen gas, clean production feedwater, steam to carrying out precoating membrane filter function module 301 rupture membrane backwash, guarantee the blowdown of production, carminative innoxious, the blowdown utilizes the overbalance can directly discharge into the coke oven on line, and waste gas mainly utilizes the overbalance can directly discharge into the atmosphere on line for nitrogen gas, and concrete implementation process includes:

1) when the transmembrane pressure difference of the precoating membrane filter functional module 301 reaches 80-100 KPa, membrane explosion backwashing is required; in the process, a water production/backwashing water inlet conversion three-way valve 5 is switched to a backwashing water inlet channel, a water inlet/backwashing water discharge conversion three-way valve 4 is switched to a backwashing water discharge channel, and an ultrasonic oscillation bridge 3 is always in an open state during membrane blasting backwashing;

2) firstly, gas washing and membrane explosion: the nitrogen pressure regulating valve 32 maintains the nitrogen inlet pressure within the range of 300-500 KPa, the nitrogen inlet control valve 31 is opened, compressed nitrogen instantly enters the inner cavity of the film coating filter element 2 to form an inner-to-outer explosion film, the ultrasonic cleaning action of the ultrasonic oscillation bridge 3 is combined, the composite pre-coating film layer and the intercepted coke powder particles on the surface layer of the film coating filter element 2 are completely exploded by the compressed gas and fall into sewage at the lower part of the fixed disc chuck component 12 in the pre-coating film filter 1, and simultaneously the sewage is discharged out of the pre-coating film filter 1 by the compressed nitrogen through a sewage discharge pipeline 3046, so that the gas washing and explosion film process is completed;

3) then water backwashing is carried out: closing the nitrogen gas inlet control valve 31, opening the backwashing water inlet control valve 30, allowing clean production feed water to enter the inner cavity of the film coating filter element 2 to form water cleaning from inside to outside, and combining the ultrasonic cleaning effect of the ultrasonic oscillation bridge 3, washing the film coating filter element 2 by water, continuously discharging water from a sewage discharge pipeline 3046 in the process, completely replacing dirty water in the inner tank of the precoating film filter 1, and finishing the water backwashing process;

4) then, steam purging is carried out: closing the nitrogen gas inlet control valve 31 and the backwashing water inlet control valve 30, maintaining the steam inlet pressure within the range of 500-800 KPa by the steam pressure regulating valve 34, opening the steam gas inlet control valve 33, allowing steam to instantly enter the inner cavity of the film coating filter element 2 to form steam purging from inside to outside, combining the ultrasonic cleaning action of the ultrasonic oscillation bridge 3, completely blowing off a small amount of oily impurity particles with strong adhesiveness in the film coating filter element 2 by high-temperature steam, and simultaneously blowing off the particles adhered to the tank wall of the precoating film filter 1 by the steam, so that the cleaning is as early as possible, and finishing the steam purging process;

5) after the final membrane-blasting backwashing is finished, closing the nitrogen gas inlet control valve 31, closing the steam inlet control valve 33, closing and opening the backwashing water inlet control valve 30, closing the ultrasonic oscillation bridge 3, switching the water inlet/backwashing water discharge conversion three-way valve 4 to a water inlet channel, opening the exhaust valve 9, opening the backwashing water inlet control valve 30, filling clean production feed water into the precoating membrane filter 1, discharging redundant gas, and turning to a coating process; the membrane explosion backwashing system 304 is set for the membrane explosion backwashing operation of the single group of precoat membrane filter function modules 301 to be switched one by one, when one group of precoat membrane filter function modules 301 carries out membrane explosion backwashing, the other group of precoat membrane filter function modules 301 still maintains the filtering operation state, and the water of the precoat membrane filter device system 300 is not cut off during membrane explosion backwashing;

in step A, B, C, coking sewage discharged from the delayed coking device is treated on-line and immediately, the treated produced water is pressurized on-line and immediately recycled, and the waste gas, tar, coke powder and backwash drainage separated in the treatment process are externally conveyed to relevant collection points through on-line and immediately pressurizing, so that the requirements of on-line treatment working conditions of drainage at any time and immediate on-line treatment and recycling in the production process of the delayed coking device are met.

In order to prove the effect of the device and the method of the utility model, the utility model discloses the people explains through the pilot test case the technical effect of technical scheme of the utility model is compared with traditional technical scheme and has unexpected nature.

Case 1: removing coke powder from coking sewage

The sulfur-containing sewage and high oil-containing sewage (blowing condensed water) discharged by a delayed coking device of a certain oil refinery contain a large amount of organic pollutants such as coke powder, oil, sulfide, ammonia nitrogen, phenol and the like, and are high-concentration and high-emulsification organic wastewater which is difficult to treat by a steam stripping method.

High oil-containing sewage (blowing condensed water) discharged from a gas-liquid separation tank at the top of the contact cooling tower: normally discharging for 1-2 m 3/h; the intermittent flow is 30-35 m3/h, the intermittent duration is 3-3.5 hours, and the time is 1 or 2 times a day.

The sulfur-containing sewage discharged from a gas-liquid separation tank at the top of the fractionating tower: normally 5-6 m3/h, and continuously discharging all day.

The water discharge all day is 230-430 m3/d, and accounts for 6-10% of the total sewage of the delayed coking device; but the discharge amount of pollutants such as coke powder, oil, sulfide, ammonia nitrogen and the like accounts for about 40 percent of the pollutants of the coking device.

TABLE 1 delayed coking wastewater quality data

Index (I)

pH

Coke powder (mg/l)

Petroleum products (mg/l)

Sulfide (mg/l)

Ammonia nitrogen (mg/l)

Phenol (mg/l)

COD（mg/l）

Concentration of

8~9

3500~6000

1500~18000

10000~20000

10000~20000

1000~2000

15000~30000

Note that: mainly extracted wax oil and emulsified tar.

Adopt "ultrasonic demulsification device + positive pressure totally-enclosed flotation settlement integrated processing apparatus + precoating membrane filter equipment" whole set pilot plant of 0.5 m/h of processing scale to carry out nearly one month's industry siding on-the-spot pilot plant test in succession, the pilot plant result is as follows:

1) the detection results of the treated water quality are summarized (sulfides, ammonia nitrogen, phenol and the like are not in the treatment requirement range of the complete set of pilot plant, need to be purified by the complete set of pilot plant and then are conveyed to a stripping device for removing hydrogen sulfide and ammonia nitrogen, and the hydrogen sulfide and ammonia nitrogen are recovered as the raw materials of a sulfur device)

TABLE 2 summary of pilot plant water quality results

According to the continuous pilot test result, the complete equipment for removing the emulsified coke powder in the delayed coking sewage by the precoating membrane technology can firstly realize the demulsification of emulsified oil by using an ultrasonic demulsification device, then can realize the flotation separation removal of free-phase tar and the sedimentation separation removal of large-particle coke powder generated by ultrasonic demulsification by using a flotation-sedimentation integrated treatment device under the condition of no medicine addition, and finally can realize the complete filtration of the emulsified tar and the emulsified coke powder between several micrometers and several hundred nanometers which cannot be normally demulsified and separated by using a precoating membrane filtering device; the tar removal rate is more than 90 percent, the coke powder removal rate is more than 99 percent, the effluent turbidity is below 1 NTU, and the effluent turbidity is below 1 NTU, so that the absolute clarification of the water quality is realized, the problem that the tower tray is blocked after the emulsified coke powder enters the stripping tower is solved, and the normal operation of production equipment is realized.

2) Operating state of the precoated membrane filtration device: in the process of emulsifying coke powder in the coking sewage by the precoated composite precoating film layer, the film flux is always maintained at 330-370L/m²H is not attenuated basically, the transmembrane pressure difference is 0.02-0.03 MPa, the transmembrane pressure difference reaches 0.07MPa, the pre-coated filter automatically performs membrane blasting backwashing and re-coating, the transmembrane pressure difference is increased linearly along with the operation time, and the interval period between the membrane blasting backwashing and the coating can be maintained over 9h, as shown in figure 2.

Through the industrial side line on-site continuous pilot test of nearly one month, the continuous operation of the precoating membrane filtering device adopts a cyclic operation mode of 'coating → filtering → membrane blasting backwashing', and the membrane flux is always maintained at 330-370L/m through multiple cyclic operation²H range has no attenuation basically, pressure change is stable, and the interval period of backwashing and film coating can still be maintained above 9 h; the membrane blasting backwashing time is 2-3 min each time,the film coating time is 2-3 min, the requirements can be met by air-water combined washing, the transmembrane pressure difference and the membrane flux can be restored to the initial state without chemical cleaning, the initial state can be restored after membrane blasting backwashing and film coating, the problems that the membrane flux is continuously attenuated due to the fact that the filtration of a solidified membrane is carried out along with the lapse of the operation time, and the time between the filtration and the backwashing is shorter and shorter are solved, and the advantages that the membrane blasting method can be replaced are shown in figure 3.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The complete equipment for removing the emulsified coke powder in the delayed coking sewage by the precoating membrane technology is characterized by comprising an ultrasonic demulsification device system (100), a positive-pressure fully-closed flotation and sedimentation integrated treatment device system (200), a precoating membrane filtering device system (300) and a liquid ring compressor exhaust system (400);

the ultrasonic demulsification device system (100) comprises an ultrasonic demulsification tank (101), an ultrasonic transducer (102), an ultrasonic radiator (103), an ultrasonic water inlet regulating valve (104) and an ultrasonic water inlet flow meter (105);

the positive-pressure fully-closed flotation sedimentation integrated treatment device system (200) comprises a fully-closed flotation sedimentation treatment equipment box body (201), a multiphase flow nitrogen gas dissolving and releasing system (202), a tar online discharge system (203), a coke powder online discharge system (204) and a communicated exhaust pipeline (205);

the pre-coating membrane filtering device system (300) comprises two groups of pre-coating membrane filter function modules (301), a set of shared water inlet and water production system (302), a set of shared film coating system (303) and a set of shared membrane explosion backwashing system (304);

the liquid ring compressor exhaust system (400) comprises a liquid ring compressor (401), a pressure switch (402) and a gas-liquid separator (403).

2. The complete set of equipment for removing the emulsified coke powder in the delayed coking wastewater by the precoating membrane technology according to claim 1, wherein an ultrasonic radiator (103) in the ultrasonic demulsification device system (100) is hermetically installed in an ultrasonic demulsification tank (101), an ultrasonic transducer (102) which can excite the ultrasonic radiator (103) to vibrate at high frequency to generate an ultrasonic field is fixed at the upper end of the ultrasonic radiator (103), the ultrasonic demulsification tank (101) adopts a tank body type structure which can bear high pressure, the operation process is a high-pressure airtight mode, the outlet of the tank body has higher residual pressure, the inlet of the ultrasonic demulsification tank (101) is provided with an ultrasonic water inlet regulating valve (104), and the ultrasonic water inlet flow meter (105) realizes effective regulation and control of water inlet amount.

3. The complete equipment for removing the emulsified coke powder in the delayed coking wastewater by the precoating membrane technology according to claim 1, wherein the whole separation process in the positive pressure fully-closed flotation-sedimentation integrated treatment device system (200) is completed in a fully-closed flotation-sedimentation treatment equipment box body (201), the fully-closed flotation-sedimentation treatment equipment box body (201) adopts an integrally fully-closed type, a box body (2001) is of a rectangular structure, and the interior of the box body is divided into four functional areas, namely a micro-bubble contact area (20), a flotation-sedimentation separation area (21), a water outlet buffer area (27) and a water outlet area (28); the top of the box body (2001) is sealed by a conical guide plate (22), the bottom is sealed by a conical mud collecting hopper (29), and the whole body is welded and formed; an oil and gas collecting cap (23) is arranged at the position of a frustum necking surrounded by the micro-bubble contact zone (20) and the conical guide plate (22) at the top of the flotation sedimentation separation zone (21), and the micro-bubble contact zone and the conical guide plate are connected by flanges; a water and gas collecting cap (24) is arranged at the position of a frustum contraction surrounded by the conical guide plate (22) at the top of the water outlet buffer area (27), and the water and gas collecting cap and the frustum contraction are connected by flanges; a water outlet gas collecting cap (26) is arranged at the position of a frustum contraction surrounded by the conical guide plate (22) at the top of the water outlet area (28), and the water outlet gas collecting cap are connected by flanges; therefore, the fully-closed flotation sedimentation treatment equipment box body (201) strictly meets the requirement of fully-closed operation working conditions under the positive pressure condition from the structural aspect, and the problem of leakage of toxic gas mainly containing hydrogen sulfide does not exist; the water collecting and gas collecting cap (24) is communicated with the middle position of the water outlet and gas collecting cap (26) by a water outlet communicating pipe (25) to form a water passing channel, the operating liquid levels of the micro-bubble contact zone (20), the flotation sedimentation separation zone (21) and the water outlet buffer zone (27) are stably maintained at the water outlet communicating pipe (25), the lower part of the water outlet communicating pipe (25) is taken as a boundary to serve as a water separation area, and the upper part of the water outlet communicating pipe is taken as a gas collecting and exhausting area; the top ends of the oil collecting and gas collecting cap (23), the water collecting and gas collecting cap (24) and the water outlet and gas collecting cap (26) are communicated by a communicated exhaust pipeline (205), so that the requirements of air pressure balance and exhaust gas centralized guide and exhaust of each gas collecting and exhaust area are met.

4. The complete equipment for removing the emulsified coke powder in the delayed coking wastewater by the precoating membrane technology according to claim 1, wherein in the positive-pressure fully-closed flotation-sedimentation integrated treatment device system (200), the periphery of a fully-closed flotation-sedimentation treatment equipment box body (201) is communicated with matched facilities thereof by a multiphase flow nitrogen gas dissolving and releasing system (202), a tar online discharge system (203), a coke powder online discharge system (204) and a communicated exhaust pipeline (205);

the dissolved gas water of the multiphase flow nitrogen dissolved gas and release system (202) is 15-20% of the treated water yield of a water outlet area (28) in a box body (201) of the fully-closed flotation sedimentation treatment equipment, and a vacuum regulating valve (2024) is arranged on a water inlet pipeline of the multiphase flow dissolved gas pump (2021); the outlet of the multiphase flow dissolved air pump (2021) is connected with an dissolved air release valve (2026) which is arranged outside the steady flow expansion pipe (2025);

the online tar discharging system (203) comprises an oil discharge pump (2031), an oil-water interface instrument (2032) and a tar discharging control valve (2033), the online tar discharging system is connected with the oil-collecting and gas-collecting cap (23) through a pipeline, and the oil-water interface instrument (2032) is used for detecting an oil-water interface in the oil-collecting and gas-collecting cap (23);

the coke powder online discharge system (204) comprises a coke powder discharge pump (2041) and a coke powder discharge control valve (2042), and is connected with a sludge collection hopper (29) through a pipeline;

one end of the communicated exhaust pipeline (205) is connected with the oil and gas collecting cap (23), the water and gas collecting cap (24) and the water and gas collecting cap (26), and the other end is connected with the exhaust system (400) of the liquid ring compressor.

5. The integrated equipment for removing the emulsified coke powder in the delayed coking wastewater by the precoating membrane technology according to claim 1, wherein the precoating membrane filtering device system (300) is provided with two groups of precoating membrane filter functional modules (301), and the operation state between each group of precoating membrane filter functional modules (301) is one of two states of mutual independence and mutual intersection; the water inlet and water production system (302) is connected with the precoating film filter functional module (301) through a variable-frequency water supply pump (13) for controlling the water inlet flow; the membrane explosion backwashing system (304) and the membrane coating system (303) are set for backwashing and membrane coating operation of the single-group filter module;

the precoating film filter (1) comprises a film coating filter element (2), a fixed flower disc assembly (12) and an ultrasonic oscillation bridge (3), wherein the film coating filter element (2), the fixed flower disc assembly (12) and the ultrasonic oscillation bridge (3) are arranged in the precoating film filter (1); the precoating membrane filter (1) is connected with eight groups of functional valves, namely a water inlet/backwashing drainage switching three-way valve (4), a water production/backwashing water inlet switching three-way valve (5), a water inlet selection valve (6), a coating selection valve (7), a water production/coating circulation switching three-way valve (8), an exhaust valve (9), a backwashing water inlet one-way valve (10) and a gas inlet one-way valve (11), through external pipelines to form a group of precoating membrane filter functional modules (301);

the precoating membrane filter function module (301) is connected with a water inlet and a coating circulation port of a water production/coating circulation conversion three-way valve (8), a backwashing water outlet of a water inlet/backwashing water discharge conversion three-way valve (4), an interface at the other side of an air inlet one-way valve (11), an interface at the other side of an exhaust valve (9), an interface at the other side of a backwashing water inlet one-way valve (10), an interface at the other side of a water inlet selection valve (6) and an interface at the other side of a coating selection valve (7) to form an interface of the precoating membrane filter function module (301) and a matched water inlet water production system (302), a coating system (303) and a membrane explosion backwashing system (304) to form a precoating membrane filter device system (300);

the film coating system (303) comprises a film powder adding device (16), a film coating box (15), a circulating film coating pump (17), a film coating water inlet pipeline (3031) and a film coating water outlet pipeline (3032); the coating water inlet pipeline (3031) is connected with the interface at the other side of the coating selection valve (7), and the coating water outlet pipeline (3032) is connected with the coating circulation port of the water production/coating circulation conversion three-way valve (8) to form an independent and complete circulation coating loop between the coating system (303) and each group of pre-coating membrane filter functional modules (301) so as to meet the sharing requirement;

the water inlet and production system (302) comprises a variable-frequency water supply pump (13), a membrane water inlet flow meter (14), a water inlet pipeline (3021) and a water production pipeline (3022); the water inlet pipeline (3021) is connected with the interface at the other side of the water inlet selector valve (6), and the water production pipeline (3022) is connected with the water production port of the water production/coating film circulation conversion three-way valve (8);

the membrane explosion backwashing system (304) comprises a backwashing water inlet control valve (30), a backwashing water inlet pipeline (3041), a nitrogen gas inlet control valve (31), a nitrogen gas pressure regulating valve (32), a nitrogen gas inlet pipeline (3042), a steam gas inlet control valve (33), a steam pressure regulating valve (34), a steam gas inlet pipeline (3043), a membrane explosion gas inlet pipeline (3044), a gas outlet pipeline (3045) and a sewage discharge pipeline (3046);

a backwashing water inlet pipeline (3041) of the membrane blasting backwashing system (304) is connected with the interface at the other side of the backwashing water inlet one-way valve (10); the nitrogen gas inlet pipeline (3042) and the steam gas inlet pipeline (3043) are converged to the burst film gas inlet pipeline (3044), and the burst film gas inlet pipeline (3044) is connected with the other side interface of the gas inlet one-way valve (11); the exhaust pipeline (3045) is connected with the other side interface of the exhaust valve (9), the sewage discharge pipeline (3046) is connected with a backwashing water outlet of the water inlet/backwashing water discharge conversion three-way valve (4), and the exhaust pipeline (3045) is connected and converged into the sewage discharge pipeline (3046).

6. The integrated equipment for removing the emulsified coke powder in the delayed coking wastewater by the precoat membrane technology according to claim 5, wherein the precoat membrane filter function module (301) is used as the core part of the precoat membrane filter equipment system (300) and is formed by the following steps:

the film coating filter element (2) is inversely arranged on a corresponding fixing hole of the fixed faceplate assembly (12) by a self-tightening anti-loose fastener to form good sealing; the fixed flower disc assembly (12) is sealed and oppositely clamped in the precoating film filter (1) by a tank body flange, the fixed flower disc assembly (12) divides the interior of the precoating film filter (1) into a water inlet area at the lower part and a water producing area at the upper part, and an ultrasonic oscillation bridge (3) is arranged on the tank wall of the straight section of the precoating film filter (1);

the tank top leading-out pipeline of the precoating membrane filter (1) is connected with a gathering port of a water production/backwashing water inlet conversion three-way valve (5), and the backwashing water inlet branching leading-out pipeline of the water production/backwashing water inlet conversion three-way valve (5) is respectively connected with a backwashing water inlet one-way valve (10) and a gas inlet one-way valve (11); a water production port of the water production/backwashing water inlet conversion three-way valve (5) is led out of a gathering port of a pipeline water production/film coating circulation conversion three-way valve (8) for connection;

a tank bottom outlet pipeline of the precoating membrane filter (1) is connected with a gathering port of a water inlet/backwashing drainage switching three-way valve (4), and a water inlet selector valve (6) and a coating selector valve (7) are connected with a water inlet/backwashing drainage switching three-way valve (4) in a branching manner;

the straight cylinder section of the precoating film filter (1) is close to the fixed disc chuck component (12) and leads out a pipeline to be connected with an exhaust valve (9).

7. The complete set of equipment for removing the emulsified coke powder in the delayed coking wastewater by the precoat film technology according to claim 1, wherein the coking wastewater water pressure in the ultrasonic demulsification device system (100) is 1000 +/-100 kPa; in a pressure-bearing closed tank of the ultrasonic demulsification tank (101), an ultrasonic transducer (102) is provided with an ultrasonic radiator (103) which can vibrate in an overclocking manner; an inlet of the ultrasonic demulsification tank (101) is provided with an ultrasonic water inlet regulating valve (104) and an ultrasonic water inlet flow meter (105);

the ultrasonic demulsification device system (100) is high-pressure closed; the ultrasonic demulsification tank (101) is connected with the positive-pressure fully-closed flotation-sedimentation integrated treatment device system (200);

the positive pressure full-closed flotation sedimentation integrated treatment device system (200) is provided with a water outlet area (28) for collecting treated outlet water, and the water produced by the precoating film filtering device system (300) has a residual pressure of 500 +/-50 kPa;

the material of the coating filter element (2) of the precoating membrane filter device system (300) is a metal fiber sintered microporous filter material; a composite pre-coating film layer with the thickness of 50-100 mu m is pre-coated on the surface layer of the coating filter element (2), and the compound film powder of the composite pre-coating film layer adopts Al₂O₃The nano active body modified film powder and the filter aid film powder of the active coke powder are mixed to form the filter aid film.

8. The complete equipment for removing the emulsified coke powder in the delayed coking wastewater by the precoating membrane technology according to claim 7, wherein a multiphase flow nitrogen gas dissolving and releasing system (202) is arranged in the positive pressure fully-closed flotation and sedimentation integrated treatment device system (200) in a matching way;

the fully-closed flotation sedimentation treatment equipment box body (201) takes a water outlet communicating pipe (25) as an interface of an air chamber and a water chamber, liquid levels of a micro-bubble contact zone (20), a flotation sedimentation separation zone (21) and a water outlet buffer zone (27) are arranged at the position of the water outlet communicating pipe (25), an oil and gas collecting cap (23), a water and gas collecting cap (24) and a water outlet gas collecting cap (26) are arranged above the water outlet communicating pipe (25) and used as an air chamber space for generating waste gas, and the waste gas is communicated by a communicating exhaust pipeline (205) arranged at the top end.

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