CN101372634B - Crude oil dewatering apparatus and system - Google Patents

Abstract

The invention relates to a crude oil electric field action part which is installed on oil pipelines and consists of a cavity, an electric field action area and a power source input terminal; wherein, the cavity is provided with an oil inlet end and an oil outlet end; the oil inlet end is used for being matched and connected with an upstream oil pipeline and for receiving upstream crude oil, while the oil outlet is used for outputting passing crude oil downstream; the electric field action area is arranged between the oil inlet end and the oil outlet end and used for exerting action on the passing crude oil with the electric field; the power source input terminal is arranged on the cavity and is used for inputting voltage which can generate the electric field into the electric field action part; wherein, the ratio of the size of a cross section of the cavity of the electric field action part vertical to the flow direction of crude oil to the size of a cross section of the oil pipeline matched with the cavity vertical to the flow direction of crude oil is from 0.7 to 3. The invention also provides a crude oil dehydration unit and a crude oil dehydration system which includes at least one crude oil dehydration unit. The crude oil electric field action part can lead to more simple and compact structure of a crude oil dehydration and desalting device and can improve the effect and efficiency of crude oil dehydration.

Description

A kind of crude dehydrating plant and system

The application is that application number is dividing an application of 200780002213.6 one Chinese patent application.This application number is that 200780002213.6 patented claim is based on the China national phase application of the International Application PCT/CN2007/070182 that submitted on June 26th, 2007, and requires to be filed on July 17th, 2006 right of priority that Patent Office of the People's Republic of China, application number are 200610045576.5 patented claim.

Technical field

The present invention relates to the method emulsion handled with physical method, in particular to the crude oil in oil field or the refinery production is carried out electric field or acoustic-electric dehydrated device.

Background technology

In the production of petroleum and petrochemical industry, it is that the water-in-oil that is in intimate-association state, oil-in-water particle are opened that one important technology is arranged, and realization crude oil separates with water fully.Current now method is the chemical method breakdown of emulsion, promptly in water solution of oil, adds a large amount of tensio-active agents (claiming emulsion splitter again), reduces the surface tension of water-oil interface, accelerates the separation of profit.The subject matter of this breaking method is that cost is high, speed of response is slow, but also causes environmental pollution easily.

As a kind of improvement, a kind of method of utilizing high-voltage electric field to accelerate de-emulsification speed is arisen at the historic moment, and realizes that the device of this function is commonly referred to as electrical dehydrator.It is arranged with high voltage terminal in tank interior by certain way by a tank body, and adjacent high voltage terminal links to each other with the different electrodes of tank body external high pressure power supply; Thereby between them, form high-voltage electric field; Also there are not opening for feed, feed distributor, negative area on the tank body; Water port in the tank body bottom reaches the parts such as oil outlet end on tank body top.Its action principle is between the intravital different electrodes of jar, to form high-voltage electric field, and emulsion receives the polarized action of electric field and quickens sedimentation through electric field action portion the time.Chinese patent CN2159833Y, CN1605615A, CN1140611C, U.S. Pat 4209374 grades are introduced the electrical dehydrator of different structure, and their principle of work is identical.

The characteristics of this structure are that work is more stable; Profit has been realized instant separation, and shortcoming is that volume is bigger, and structure is complicated; Cost is high; The slow motion in jar of difficult installation, liquid has also influenced the mutual perikinetic aggregation of water droplet tiny under electric field action and has become the settled chance of macrobead, thereby has influenced the efficient and the effect of breaking emulsion and dewatering desalination.

Patent CN2296230 (crude oil electric field dehydration ultrasonic demulsifier), CN2539559 (crude oil UW---electric field associating desalting plant) disclose the technology that dewatering and desalting is carried out in two kinds of electric fields and ultrasonic combined effect.Their common technological lines are to be provided with an electrical dehydrator; The electrical dehydrator of promptly being introduced such as patent CN2159833, US4209374 etc.; Be provided with a UW acting device in the electrical dehydrator front, pending crude oil emulsion is introduced into like patent CN2296230 through transport pipe, perhaps the described UW acting device of CN2539559; After the UW effect, get into electrical dehydrator through transport pipe again.Inner at electrical dehydrator; Crude oil emulsion is under effect of electric field; Oily water separation speeds up, and isolated sewage sinks to the bottom of electrical dehydrator and discharges through water port, and isolated crude oil absolute oil is discharged through the oil spilling mouth on electrical dehydrator top; Here, electrical dehydrator has pending crude oil is carried out electric field action and the settlement separate two kinds of functions that realize having handled crude oil.The physics breakdown of emulsion that this technological line is realized is compared with the simple electric field dehydration of representatives such as patent CN2159833, US4209374 and on effect, is improved to some extent; But on industrial production, also exist several unfavourable defects; Affect the effect and the popularization of physics demulsification technology, these several problems are:

1, structurally, whole technical proposal is limited by heavy electricity and takes off jar (being electrical dehydrator), has limited the physics dewatering system and has installed neatly and transform according to the requirement of production technique, is unfavorable for the popularization of physics demulsification technology.

2, on the program of physical action, because oil variety is various, as far as considerable crude oil emulsion wherein, ultrasonic earlier, program that the back electricity takes off is unfavorable for giving full play to the efficient and the effect of physical action.

3, compare with the large-scale storage tank that in industry, extensively adopts, the volume that electricity takes off jar is obviously less than normal, has further limited the effect of physical action.

4, through the liquid sedimentation on the spot of physical action, water-in-oil, oil-in-water particle have been reduced through pedesis collision, merging, settled chance.

5, in the electro-dewatering jar, liquid has formed layering because of sedimentation, and the electrical characteristic of the interelectrode liquid of different groups have nothing in common with each other, and makes the voltage that is added on the electrode be not easy to reach the ideal state, has a strong impact on the effect of electric field action.

Summary of the invention

According to one embodiment of present invention, a kind of crude oil electric field action portion is provided, has been used to be installed in oil pipeline; Comprise: cavity, have oil inlet end, be used for the transition pipeline at the upper reaches matched; Be used to import crude oil, and oil outlet end, be used for the crude oil that output stream is downstream crossed from the upper reaches; Electric field action zone is provided with between said oil inlet end and the said oil outlet end, is used for through the crude oil effect of electric field to flowing through; Power input terminal is arranged on the cavity, is used to the voltage that the input of said electric field action portion produces electric field; Wherein, the cavity of said electric field action portion is comparable at the transition pipeline that yardstick and its connected perpendicular to the cross section on the crude oil flow direction at the yardstick perpendicular to the cross section on the crude oil flow direction.The cavity of wherein said electric field action portion can be between 0.7 to 3 at the diameter ratio perpendicular to the cross section on the crude oil flow direction at the transition pipeline that diameter and its connected perpendicular to the cross section on the crude oil flow direction.

According to another embodiment of the invention, a kind of dehydrating of crude oil unit is provided, has comprised: oily-water seperating equipment; At least one crude oil physical action portion; It is arranged on the upper reaches of said oily-water seperating equipment; Be coupled on the said oily-water seperating equipment, wherein, said crude oil physical action portion comprises at least one in above-mentioned crude oil electric field action portion and the ultrasonication portion; Wherein, the cavity of said physical action portion is comparable at the transition pipeline that yardstick and its connected perpendicular to the cross section on the crude oil flow direction at the yardstick perpendicular to the cross section on the crude oil flow direction.The cavity of wherein said physical action portion can be between 0.7 to 3 at the diameter ratio perpendicular to the cross section on the crude oil flow direction at the transition pipeline that yardstick and its connected perpendicular to the cross section on the crude oil flow direction.

According to an embodiment more of the present invention, a kind of dehydrating of crude oil system is provided, comprise the dehydrating of crude oil unit that at least one is above-mentioned.

In said apparatus; Because physical action portion; For example electric field action portion connects between transport pipe; Existing electricity takes off jar as oily-water seperating equipment in the existing technical process of petrochemical industry both capable of using, and the various large-scale common slurry tank that does not contain electrode structure also capable of using is as oily-water seperating equipment, thereby makes full use of existing resource, reduce the volume and the complicacy of system.

In addition; Sedimentation function and physical action, for example electric field action functional separation can make whole dewatering unit structurally simpler, compact; Being electric field--the installation of sound field machinery provides great convenience property; In technical process, be easy to install and forward multiple spot to and install, be beneficial to very much the effect of strengthening physical breakdown of emulsion, dehydration and popularization that should technology from single-point.

In addition, because said crude oil physical action portion is comparable at the transition pipeline that yardstick and its connected perpendicular to the cross section on the crude oil flow direction at the yardstick perpendicular to the cross section on the crude oil flow direction, the diameter of pipeline is far smaller than the diameter of traditional electrical dehydrator; An about little one magnitude, like this, the diameter of crude oil physical action portion also becomes very little; Like this, reduced the Project Realization workload greatly, electric field action portion has also obviously been reduced the quantity of electrode and the distance between adjacent electrode; Alleviated requirement to high-voltage power supply; Thereby, compare traditional electrical dehydrator, the littler voltage that can adopt.The more important thing is that the interelectrode liquid of electric field action portion of flowing through all is to pass through settled uniformly emulsify liquid dynamically and not, its electrical characteristic are the same between all electrodes, are easy to control being applied to interelectrode voltage, guarantee its steady operation; Unlike the liquid in the traditional electrical water trap, realized layering through sedimentation, the electrical characteristic of liquid have nothing in common with each other and often change between each electrode; It is wayward to be applied to interelectrode voltage; Instability, easily " electric field collapses " reduced the efficient of dewatering and desalting.

In addition; Because the oil outlet end of this device can connect through oil pipeline and slurry tank; Increased the chance that the fine water particle collides each other, made the rapid coagulation of fine water particle become to be easy to settled oarse-grained chance, improved the effect and the efficient of dehydrating of crude oil desalination widely thereby increased.

Additional advantage, purpose and embodiment will partly illustrate in description subsequently, and below inspection, partly become to those skilled in the art during content obviously, maybe can convention from practice of the present invention.The object of the invention can be realized through the structure of in written description and claim and accompanying drawing, specifically noting and obtained with other advantage.More than with following detailed description all be exemplary and indicative, and aim to provide further explanation.

Description of drawings

Fig. 1 is the synoptic diagram of crude oil electric field action portion according to an embodiment of the invention.

Fig. 2 is the synoptic diagram of crude oil electric field action portion in accordance with another embodiment of the present invention.

Fig. 3 is the structural representation of the electrode that uses.

Fig. 4-Fig. 7 is respectively the synoptic diagram according to the electrode structure of various embodiments of the present invention.

Fig. 8-Figure 12 shows the unitary synoptic diagram of dehydrating of crude oil according to an embodiment of the invention respectively.

Figure 13, Figure 14 show a kind of with piezoelectric ceramics as hyperacoustic generation device.

Figure 15, Figure 16 show and a kind ofly launch hyperacoustic generation device with the MS mode.

Figure 17 shows a kind of dehydrating of crude oil system according to an embodiment of the invention.

Embodiment

Through embodiment the present invention is done further description below in conjunction with accompanying drawing:

Embodiment one:

Like Fig. 1, shown in Figure 3, a kind of crude oil electric field action portion 300 is provided.Wherein, Metal tube tubular electric field action cavity 301 inner chambers are fixed with electrode 303 through supporting mass 302; Electrode 303 is made up of electrode 3031 and electrode 3032, and electrode 3032 is a socket shape structure, and electrode 3031 is positioned at socket shape electrode 3032; Electrode 3031 is a club shaped structure; Electrode 3031 is parallel to each other with the axis of electrode 3032 and the axis of electric field action cavity 301, and the dead in line of electrode 3031 axis and electrode 3032 and electric field action cavity 301, and an end of electric field action cavity 301 is fixed through a flange 304 and an end of piped web member 305; Be processed with the cable fairlead on the tube wall of web member 305; Electrode 3031 and electrode 3032 are drawn in cable aperture through two cables 307 respectively, and cable aperture is introduced plug 306 shutoff by cable, on two output terminals of another termination high-voltage power supply 200 of two cables 307; The cable 307 that is connected with electrode 3031 is electrically connected with the tube wall of electric field action cavity 301 simultaneously, and the other end of web member 305 is fixed together through the flange of flange and oil pipeline 100 1 ends.The present invention also can not use web member 305, and cable 307 is directly drawn from electric field action cavity 301.The other end of electric field action cavity 301 is connected with transport pipe 100 through flange, another termination oily-water seperating equipment of transport pipe 100, the oil inlet end of for example slurry tank 400.Electrode 303 in the electric field action cavity 301 is two groups; Form by electrode 3032 and electrode 3031 for one group; Another group is made up of the electrode 3032 and the tube wall of electric field action cavity 301, and the electrical signal that high-voltage power supply 200 imposes on electrode 303 is high-voltage alternating or direct current signal.In addition, to impose on the electrical signal of electrode 303 can also be high-voltage pulse signal to high-voltage power supply 200.Crude oil of the present invention is through the oil pipeline 100 electric field action cavity 301 of flowing through; Between the effect lower electrode 3032 and electrode 3031 of high-voltage power supply 200, form high-voltage electric field between the tube wall of electrode 3032 and electric field action cavity 301, thereby can there be the electric field blind area in electric field action cavity 301 inner chambers, during the electric field action zone of crude stream in electric field action cavity 301; Oil-water mixture just receives effect of electric field; Fine water particle wherein is easy to mutual collision under electric field and liquid self mobile dual function, condense into to be easier to and separating of oil larger particles; In addition; The existence of the transport pipe 100 of electric field action cavity 301 rear ends has increased fine water particulate collision opportunity, is beneficial to tiny particle water more and forms big particle water, and the wet oil after electric field treatment flows in the slurry tank 400; Getting into slurry tank 400 after natural subsidence; Depositing in water drops to the bottom of slurry tank 400, discharges through the water shoot 402 of tank base, and the crude oil behind the dewatering and desalting then flows out through the draw-off pipe 401 at tank body top.According to the oil transportation caliber, the internal diameter of the tubular effect cavity of metal tube can be set as required, and in the present embodiment, the oil pipeline diameter is 30cm, and the diameter of metal tube tubular electric field action cavity 301 inner chambers is 50cm; In another embodiment, the diameter of metal tube tubular electric field action cavity 301 inner chambers also can be 30cm.In one embodiment, pipe diameter is 6cm, and the diameter of electric field action cavity 301 inner chambers of employing is 6cm.

Embodiment two:

Like Fig. 2, shown in Figure 3; In the crude oil electric field action portion 300, metal tube tubular electric field action cavity 301 inner chambers are fixed with electrode 303 through supporting mass 302, and electrode 303 is made up of electrode 3031 and electrode 3032; Electrode 3032 is a socket shape structure; Electrode 3031 is positioned at socket shape electrode 3032, and electrode 3031 is a club shaped structure, and electrode 3031 is parallel to each other with the axis of electrode 3032 and the axis of electric field action cavity 301; And the dead in line of electrode 3031 axis and electrode 3032 and electric field action cavity 301; One end of electric field action cavity 301 is fixed through a flange 304 and an end of piped web member 305, is processed with the cable fairlead on the tube wall of web member 305, and electrode 3031 and electrode 3032 are drawn in cable aperture through two cables 307 respectively; Cable aperture is introduced plug 306 shutoff by cable; On two output terminals of another termination high-voltage power supply 200 of two cables 307, the cable 307 that is connected with electrode 3031 is electrically connected with the tube wall of electric field action cavity 301 simultaneously, and the other end of web member 305 is fixed together through the flange of flange and oil pipeline 100 1 ends.The present invention also can not use web member 305, and cable 307 is directly drawn from electric field action cavity 301.The oil inlet end of another termination slurry tank 400 of electric field action cavity 301.Electrode 303 in the electric field action cavity 301 is two groups; Form by electrode 3032 and electrode 3031 for one group; Another group is made up of the electrode 3032 and the tube wall of electric field action cavity 301; The electrical signal that high-voltage power supply 200 imposes on electrode 303 is the above high-voltage AC signal of intermediate frequency, and the electrical signal that high-voltage power supply 200 imposes on electrode 303 can also be a high-voltage pulse signal.Crude oil of the present invention is through the oil pipeline 100 electric field action cavity 301 of flowing through; Between the effect lower electrode 3032 and electrode 3031 of high-voltage power supply 200, form high-voltage electric field between the tube wall of electrode 3032 and electric field action cavity 301, thereby can there be the electric field blind area in electric field action cavity 301 inner chambers, during the electric field action zone of crude stream in electric field action cavity 301; Oil-water mixture just receives effect of electric field; Fine water particle wherein is easy to mutual collision under electric field and liquid self mobile dual function, condense into to be easier to and separating of oil larger particles; Be beneficial to tiny particle water more and form big particle water; Wet oil after electric field treatment flows in oily-water seperating equipment, the for example slurry tank 400, is getting into slurry tank 400 after natural subsidence, and depositing in water drops to the bottom of slurry tank 400; Water shoot 402 through tank base is discharged, and the crude oil behind the dewatering and desalting then flows out through the draw-off pipe 401 at tank body top.In the present embodiment, pipe diameter is 25cm, and the diameter of metal tube tubular electric field action cavity 301 inner chambers is preferably 20cm.

Embodiment three:

As shown in Figure 4; Electrode 3031 is a club shaped structure; Electrode 3031 is fixed on electric field action cavity 301 inner chambers through supporting mass 302; Electrode 3031 is positioned on the axis of electric field action cavity 301, and two cables 307 are distinguished the tube wall of receiving electrodes 3031 and electric field action cavity 301, and other structure of present embodiment and mode of connection thereof are identical with embodiment one or embodiment two.

Embodiment four:

As shown in Figure 5; Hollow edged electrode 3032a is positioned at electric field action cavity 301 inner chambers; Be set with hollow edged electrode 3032b in the electrode 3032a, be set with stick electrode 3031 in the electrode 3032b, electrode 3031 is fixed in electric field action cavity 301 inner chambers through supporting mass 302 with electrode 3032b, electrode 3032a; The dead in line of the axis of electrode 3031 and electrode 3032b, electrode 3032a and electric field action cavity 301; Electrode 3031 links together through cable with electrode 3032a, and the tube wall of electrode 3032b and electric field action cavity 301 links together through another root cable, and other structure of present embodiment and mode of connection thereof are identical with embodiment one or embodiment two.

Embodiment five:

The axis of electrode 3031, electrode 3032, electrode 3032a, electrode 3032b can not overlap with the axis of electric field action cavity 301 yet among aforementioned four embodiment, and other structure and mode of connection thereof are identical with embodiment one or embodiment two.

Embodiment six:

As shown in Figure 6; The xsect of electric field action cavity 301 is a rectangle; Electrode 3033 is a plate armature, and electrode 3033 is fixed in the inner chamber of electric field action cavity 301 through supporting mass 302, and two chamber walls that electrode 3033 and electric field action cavity 301 are relative are parallel; The tube wall of electrode 3033 and electric field action cavity 301 is electrically connected with two output terminals of high-voltage power supply 200 through a cable 307 respectively, and other structure of present embodiment and mode of connection thereof are identical with embodiment one or embodiment two.

Embodiment seven:

As shown in Figure 7; The xsect of electric field action cavity 301 is a rectangle; Electrode 3034, electrode 3035 and electrode 3036 are plate armature; Be parallel to each other between electrode 3034, electrode 3035 and the electrode 3036; And two the chamber walls relative with electric field action cavity 301 are parallel, and electrode 3034 and electrode 3036 are drawn with an output terminal of high-voltage power supply 200 through a cable 307 and be connected, and the tube wall of electrode 3035 and electric field action cavity 301 is electrically connected with another output terminal of high-voltage power supply through another root cable 307.

The group number of electrode 303 of the present invention can increase and decrease according to the caliber size of electric field action cavity 301, and the caliber group number of large electrode 303 more is many more, and vice versa.For intensity and the action effect that strengthens electric field action portion, can be connected between slurry tank 400 and the oil pipeline 100 with placed in-line mode organizing the electric field action cavity 301 that electrode 303 is installed more.

Embodiment eight:

Among embodiment six, the embodiment seven electrode 3033, electrode 3034, electrode 3035 and electrode 3036 also can and the axis of electric field action cavity 301 between an angle is arranged.

Embodiment nine:

Electrode also can be web plate shape structure; Two web plate shape electrodes are fixed in the electric field action cavity inner chamber through supporting mass; The axis normal of web plate shape electrode and electric field action cavity, adjacent two web plate electrodes connect two output terminals of high-voltage power supply respectively through cable, two web plate shape electrodes have formed an electric field identical with the crude oil flow direction in electric field action cavity inner chamber; After the wet oil of electric field treatment flows into slurry tank; Water and salt settling are discharged through the water shoot of tank base to the bottom of slurry tank after sedimentation, and the crude oil behind the dewatering and desalting then flows out through the draw-off pipe at tank body top.

Embodiment ten:

In a preferred embodiment of the invention, a kind of dehydrating of crude oil unit is provided.Wherein, Comprise an oily-water seperating equipment; For example slurry tank or negative area, the front in slurry tank (district) comprises a crude oil physical action portion at least; This physical action comprises the electric field action portion and the acoustic wave action portion that is used for pending crude oil is imposed sound wave (UW) effect that is used for pending crude oil is imposed electric field action, can link together through pipeline or alternate manner between electric field action portion and the sound wave service portion; Pending crude oil gets into electric field action portion and UW service portion through transport pipe; After electric field and UW effect; The slurry tank of delivering to the back through transport pipe carries out settlement separate; Isolated self-cleaning oil is overflowed by the oil spilling mouth that is positioned at slurry tank top, and isolated water is discharged from the water port of the below that is positioned at slurry tank.In another embodiment, crude oil also can be introduced into the UW service portion through transport pipe, and the back gets into electric field action portion.

Fig. 8 shows a kind of dehydrating of crude oil unit; Promptly be used to realize electric field--the ultrasonic combined breaking emulsion and dewatering desalting plant of the emulsion of technique scheme; Wherein be provided with oily-water seperating equipment, for example slurry tank 400, in the front of slurry tank 400; Be connected with through crude oil pipeline 100 pending crude oil is imposed the electric field action portion 300 of electric field action and pending crude oil imposed the UW service portion 500 of UW effect; Through pipe connection, pending crude oil emulsion gets into electric field action portion 300, UW service portion 500 through transport pipe 100 orders between electric field action portion 300 and the UW service portion 500; After passing through electric field, action of ultrasonic waves respectively, send into slurry tank 400 through transport pipe 100 and carry out sedimentation and oily water separation.Electric field action portion 300, UW service portion 500 do not have sedimentation, the separation function of profit basically, the scheme that the structure of electric field action portion can be shown in embodiment one to embodiment nine; The structure of ultrasonication portion can adopt the scheme shown in patent CN2296230, CN2539559 and ZL200520085698.8.

Embodiment 11:

In the present technique scheme, electric field action portion 300 also can be connected by obstructed piping 100 with ultrasonication portion 500 in the dehydrating of crude oil unit, but former and later two zones that big service portion is interior are as shown in Figure 9.

Embodiment 12,13:

In the present technique scheme, in the dehydrating of crude oil unit, pending crude oil gets into the order that is processed in proper order and can adjust, and promptly is introduced into ultrasonication portion 500, then gets into electric field action portion 300, gets into settlement separate jar at last.Shown in difference among Figure 10,11.

Embodiment 14:

In the dehydrating of crude oil unit of present embodiment; Comprise a physical action portion, in this service portion, be full of pending crude oil emulsion; By high-voltage electric field generating unit high-voltage electric field that produces and the mechanical wave that produces by ultrasonic generator; Fully stack in physical action portion, thus an electric field--the superposed field of sound field produced, and hyperacoustic propagation direction and direction of an electric field can be parallel or be had a certain degree; Crude oil emulsion in the physical action portion is by this electric field--and after the superposed field effect of sound field, deliver to subordinate's slurry tank through transport pipe and carry out settlement separate.

Figure 12 shows a kind of dehydrating of crude oil unit; Promptly be used to realize the electric field of the crude oil emulsion of technique scheme--sound field associating breaking device; Comprising an oily-water seperating equipment--slurry tank 400; Be connected with the acting in conjunction portion 600 of an electric field and sound field through transport pipe 100 in the front of slurry tank, this acting in conjunction portion is through another crude oil pipeline input crude oil emulsion, by the fully stack in this acting in conjunction portion of high-voltage generator high-voltage electric field that produces and the mechanical wave that is produced by ultrasonic generator; Thereby produce an electric field--the superposed field of-sound field; By the crude oil of crude oil pipeline 100 input acting in conjunction portions through electric field--after the additive effect of-sound field, delivered to the storage tank 400 of settlement separate effect through transport pipe, isolated water is through water shoot 402 discharges; Absolute oil is sent into the next stage operation by draw-off pipe 401, as shown in Figure 12.

At above-mentioned electric field--the stack of-sound field forms in the technical scheme of acting in conjunction portion; The angle that the action of ultrasonic waves direction forms with respect to the effect of electric field direction; Can adjust according to the requirement of oil product and equipment, from being similar to parallel (0 °) near normal (90 °).

Figure 13, Figure 14 show a kind of with piezoelectric ceramics as hyperacoustic generation device, ultrasonic emitting direction and the pending vertical technical scheme of liquid flow direction.The action of ultrasonic waves direction can be from 0 °～90 ° with respect to the angle of the direction formation of electric field action.

Figure 15, Figure 16 show and a kind ofly launch hyperacoustic generation device with the MS mode, and the ultrasound emission direction is parallel with the flow direction of pending crude oil, at electric field--and in the additive effect portion of sound field, action of ultrasonic waves direction and effect of electric field are orthogonal.

Certainly, the present invention also can utilize other modes to produce UW, need not be confined to the foregoing description.

Among Figure 13～Figure 16, the 501st, hyperacoustic launching device (probe), the 502nd, ultrasonic power, 503 for connecting the cable of ultrasonic power and ultrasound probe; The 303rd, the electrode of formation high-voltage electric field, generally parallel between them, the 200th, high-voltage power supply, the 307th, the high-tension cable of connection high voltage terminal and high-voltage power supply; The 600th, the cavity of formation acting in conjunction portion, the 305th, transition piece, the 302nd, electrode support.

Slurry tank in the foregoing description promptly can utilize existing electricity to take off jar, also can utilize common slurry tank.

In the above-mentioned dehydrating of crude oil unit included physical action portion comprise electric field action portion and ultrasonication portion the two.But being readily appreciated that in the included physical action portion in dehydrating of crude oil unit, those skilled in the art also can only comprise one of electric field action portion or ultrasonication portion.In the foregoing description, physical action portion (electric field action portion and/or UW service portion) can be a pipeline shape.

In the disclosed in an embodiment of the present invention dehydrating of crude oil unit, each unit can comprise at least one crude oil physical action portion and an oily-water seperating equipment, slurry tank for example, and each physical action portion comprises electric field action portion and/or ultrasonication portion.

According to another embodiment of the invention, a kind of dehydrating of crude oil system is provided also, this system comprises the dehydrating of crude oil unit that at least one is above-mentioned.Each dehydrating of crude oil unit of forming this dehydrating of crude oil system can adopt serial or parallel distributed mode, to tackle different dehydrating of crude oil demands.Under serial distribution or parallel mode, different treatment condition can be taked in multistage dehydrating of crude oil unit in different units, to strengthen dehydrating effect.

Figure 17 shows a kind of three groups of unitary dehydrating of crude oil of dehydrating of crude oil systems that comprise, wherein the dehydrating of crude oil unit can be for example like Fig. 8-dehydrating of crude oil unit shown in Figure 12.Three groups of dehydrating of crude oil unit adopt the serial distribution mode; Adjacent dehydrating of crude oil unit 801,802 and 802, connect through transition pipeline between 803; After pending crude oil is sent into the dehydrating of crude oil system through crude oil transportation pipeline 100; Pass through the processing of dehydrating of crude oil unit 801,802,803 successively, the crude oil of handling well is defeated outside crude oil transportation pipeline 100.

It is about 3 meters that traditional horizontal electricity takes off a jar general diameter, long tens meters; And in an embodiment of the present invention, the diameter of employed pipeline shape electric field action portion (or UW service portion) and the diameter of oil pipeline are comparable.For example, when the diameter of oil pipeline was 30 centimetres, the diameter of electric field action portion (or UW service portion) can be for example 20 centimetres to 60 centimetres; When the diameter of oil pipeline was 40 centimetres, the diameter of electric field action portion (or UW service portion) can be for example 30 centimetres to 90 centimetres; When the diameter of oil pipeline is 50 centimetres; The diameter of electric field action portion (or UW service portion) can be for example 40 centimetres to 100 centimetres; The diameter of electric field action portion (or UW service portion) and the diameter ratio of pipeline are basically between 0.7 times to several times, preferably between 1 to 3 times.Certainly, the diameter of electric field action portion (or UW service portion) can dwindle arbitrarily or increase as required.The length of said electric field action portion (or UW service portion) also can extend arbitrarily as required, and said service portion is long more, and electric field is just abundant more to the effect of crude oil, and effect is also better more.

Inner at the traditional electrical water trap, the distance between adjacent electrode need apply tens thousand of volts even higher voltage generally at tens of centimetres, just effect preferably can be arranged; Because carry out sedimentation simultaneously in jar, the settlement separate high waterbearing stratum that goes out, liquid property is inconsistent between different adjacent electrodes, is easy to cause puncturing between electrode, is not easy control, forms " striding electric field ", and electric field action is stopped.

And in pipeline type electric field action of the present invention portion, the distance between adjacent electrode is generally at several centimetres, only need apply thousands of volts even lower voltage just can have effect preferably; The number of electrode can be adjusted according to the size of electric field action portion, and which floor electrode pipeline slightly just adds, otherwise just which floor adds less.

In electric field action portion,, be in tight emulsified state between oil, the water owing to also have little time to carry out the settlement separate of profit through oil, the water mixed liquid of electric field action; Do not have tangible layering, each organizes the liquid property basically identical between adjacent electrode, so; Be not easy between the electrode to puncture, under the similarity condition, unit distance can apply higher voltage; And control, thereby better effects if easily.

Adopt technical scheme provided by the present invention; Not only utilized electric field, sound field separately to the promoter action of crude oil demulsification dehydration; But also utilize the pedesis principle to increase mutual collision and the bonded chance of water-in-oil, oil-in-water particle cleverly, improved the efficient and the quality of breaking emulsion and dewatering.

Adopt technical scheme provided by the present invention, the effect of also improved in the process of breaking emulsion and dewatering effect of electric field and sound field effect mutual excitation mutually, mutually promoting has further improved the effect of crude oil demulsification dehydration.

Adopt device of the present invention; Owing to given up complicated, heavy electro-dewatering jar; Device itself is simple in structure, compact; Being electric field--the installation of sound field machinery provides great convenience property, in technical process, is easy to install from single-point forward multiple spot to and install, and is beneficial to very much the effect of strengthening physical breakdown of emulsion, dehydration and popularization that should technology.

In addition, in device, owing to utilized the effect combination of electric field, sound field different modes, the crude oil of different qualities, differing temps there is different action effects according to the embodiment of the invention.The present invention can be to the crude oil of different qualities, and the corresponding combinatorial association mode of action is adopted in the requirement of different process point targetedly, makes full use of electric field, sound field advantage separately, reaches best breaking emulsion and dewatering effect.

Additional advantage, purpose and embodiment will partly illustrate in description subsequently, and below inspection, partly become to those skilled in the art during content obviously, maybe can convention from practice of the present invention.The object of the invention can be realized through the structure of in written description and claim and accompanying drawing, specifically noting and obtained with other advantage.More than with following detailed description all be exemplary and indicative, and aim to provide further explanation.

More than be not exhaustive to the detailed description of the embodiment of the invention, the present invention should not be restricted to above disclosed precise forms.Those skilled in the art will appreciate that within the scope of the invention, can carry out various modifications that are equal to and replacement, such modification and replacement should be regarded as being contained by the present invention.In addition, also can be applicable to other field in the principle of the present invention that this provided, and need not be confined to the dewatering and desalting of crude oil.The element of above-mentioned each embodiment can be combined together, so that further embodiment is provided.

Related patent and patented claim and other reference in the preceding text is herein incorporated by reference.In case of necessity, can revise each side of the present invention, so that adopt system, function and the notion of above-mentioned each reference that further embodiment of the present invention is provided.

In addition, should the term that use in the accompanying claims not explained and become to limit the invention to disclosed specific embodiment in this explanation, only if above detailed description clearly defines this term.Therefore, actual range of the present invention all equivalent way that should contain said embodiment and implement according to claim.

Claims (16)

1. a crude oil electric field action portion is used to be installed in oil pipeline, comprising:

Cavity has oil inlet end, is suitable for the transition pipeline at the upper reaches matchedly, is used to import the crude oil from the upper reaches, and oil outlet end, is used for the crude oil that output stream is downstream crossed;

Electric field action zone is provided with between said oil inlet end and the said oil outlet end, is used for through the crude oil effect of electric field to flowing through;

Power input terminal is arranged on the cavity, is used to the voltage that the input of said electric field action portion produces electric field;

Wherein, said cavity perpendicular to the transition pipeline that diameter and its connected in the cross section on the crude oil flow direction perpendicular to the diameter ratio in the cross section on the crude oil flow direction between 0.7 to 3.

2. crude oil electric field action according to claim 1 portion, wherein said cavity perpendicular to the transition pipeline that diameter and its connected in the cross section on the crude oil flow direction perpendicular to the diameter ratio in the cross section on the crude oil flow direction between 1 to 3.

3. crude oil electric field action according to claim 1 and 2 portion; Comprise at least one first electrode and at least one second electrode in the wherein said electric field action zone; First electrode is connected respectively on the different said power input terminals with second electrode; Each first electrode and second electrode be basically parallel to extend on the direction that crude stream crosses and be basically perpendicular to crude stream to direction on alternately arrange, have one between first electrode and second electrode and be convenient to the predetermined space that crude stream is crossed.

4. crude oil electric field action according to claim 3 portion, the voltage between wherein said first electrode and said second electrode comprises direct current or voltage of alternating current or pulsed voltage.

5. crude oil electric field action according to claim 1 and 2 portion, wherein said oil outlet end directly connects or is coupled on the oily-water seperating equipment through oil pipeline.

6. crude oil electric field action according to claim 3 portion, wherein the said predetermined space between each first electrode and second electrode is uniformly or uneven.

7. according to the crude oil electric field action portion of claim 3, the xsect of wherein said first electrode and second electrode is circular basically, and perhaps decentraction setting with one heart.

8. crude oil electric field action according to claim 1 and 2 portion, wherein said electric field action portion is a tubulose, the diameter ratio of its diameter and oil pipeline is between 1 to 3.

9. a dehydrating of crude oil unit is used to be installed in oil pipeline, comprising:

Oily-water seperating equipment,

At least one crude oil physical action portion; It is arranged on the upper reaches of said oily-water seperating equipment; Be coupled on the said oily-water seperating equipment, wherein, said crude oil physical action portion comprises a ultrasonication portion and crude oil electric field action as claimed in claim 1 portion; Wherein, the cavity of said physical action portion perpendicular to the transition pipeline that diameter and its connected in the cross section on the crude oil flow direction perpendicular to the diameter ratio in the cross section on the crude oil flow direction between 0.7 to 3.

10. dehydrating of crude oil according to claim 9 unit; Wherein, the cavity of said physical action portion perpendicular to the transition pipeline that diameter and its connected in the cross section on the crude oil flow direction perpendicular to the diameter ratio in the cross section on the crude oil flow direction between 1 to 3.

11. according to claim 9 or 10 described dehydrating of crude oil unit; Wherein, Said electric field action portion and the series connection of ultrasonication portion are provided with; In electric field action portion and the ultrasonication portion one connects with upper reaches transition pipeline, and another directly connects or is coupled on the said oily-water seperating equipment in downstream through oil pipeline, and said electric field action portion and ultrasonication portion one of them and wherein another successively act on crude oil.

12. according to claim 9 or 10 described dehydrating of crude oil unit, the overlapping setting of wherein said electric field action portion and said ultrasonication portion makes the superimposed crude oil that acts on simultaneously of electric field and sound field.

13. according to claim 9 or 10 described dehydrating of crude oil unit, the action of ultrasonic waves direction of wherein said ultrasonication portion be substantially perpendicular to crude stream to.

14. according to claim 9 or 10 described dehydrating of crude oil unit, the action of ultrasonic waves direction of wherein said ultrasonication portion be arranged essentially parallel to crude stream to.

15. according to claim 9 or 10 described dehydrating of crude oil unit, the UW of wherein said ultrasonication portion produces with piezoelectric ceramics or MS mode.

16. a dehydrating of crude oil system comprises at least one dehydrating of crude oil as claimed in claim 9 unit.

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