CN203810358U - Underground electric heating steam generator - Google Patents
Underground electric heating steam generator Download PDFInfo
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- CN203810358U CN203810358U CN201420053994.9U CN201420053994U CN203810358U CN 203810358 U CN203810358 U CN 203810358U CN 201420053994 U CN201420053994 U CN 201420053994U CN 203810358 U CN203810358 U CN 203810358U
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- 238000005485 electric heating Methods 0.000 title claims abstract description 53
- 238000010438 heat treatment Methods 0.000 claims abstract description 141
- 239000012530 fluid Substances 0.000 claims abstract description 27
- 238000003466 welding Methods 0.000 claims description 14
- 230000004888 barrier function Effects 0.000 claims description 11
- 239000004020 conductor Substances 0.000 claims description 10
- 239000011796 hollow space material Substances 0.000 claims description 8
- 238000007789 sealing Methods 0.000 claims description 8
- 230000013011 mating Effects 0.000 claims description 4
- 230000000694 effects Effects 0.000 abstract description 9
- 239000007788 liquid Substances 0.000 abstract 2
- 239000003921 oil Substances 0.000 description 26
- 238000013459 approach Methods 0.000 description 6
- 238000000034 method Methods 0.000 description 6
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 6
- 238000000605 extraction Methods 0.000 description 5
- 238000012544 monitoring process Methods 0.000 description 5
- 238000010793 Steam injection (oil industry) Methods 0.000 description 4
- 238000009413 insulation Methods 0.000 description 4
- 238000012546 transfer Methods 0.000 description 3
- 238000006243 chemical reaction Methods 0.000 description 2
- 238000005516 engineering process Methods 0.000 description 2
- 238000001914 filtration Methods 0.000 description 2
- 238000001802 infusion Methods 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000002485 combustion reaction Methods 0.000 description 1
- 238000007796 conventional method Methods 0.000 description 1
- 230000008878 coupling Effects 0.000 description 1
- 238000010168 coupling process Methods 0.000 description 1
- 238000005859 coupling reaction Methods 0.000 description 1
- 239000010779 crude oil Substances 0.000 description 1
- 238000011161 development Methods 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 239000000446 fuel Substances 0.000 description 1
- 239000003129 oil well Substances 0.000 description 1
- 238000012856 packing Methods 0.000 description 1
- 238000011084 recovery Methods 0.000 description 1
- 230000009467 reduction Effects 0.000 description 1
- 238000010079 rubber tapping Methods 0.000 description 1
- 239000000243 solution Substances 0.000 description 1
- 230000007704 transition Effects 0.000 description 1
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Abstract
The utility model discloses an electrical heating steam generator in pit, include: the heating device comprises a shell, a heating pipe and an electric heating element. Wherein the housing includes: the outer barrel, the shell joint, the upper cover plate and the lower cover plate. The heating pipe is a hollow cylinder, the number of the heating pipes is multiple, the hollow part is a through hole, and fluid circulates from the through hole. The liquid inlet end of the heating pipe is inserted into the through hole arranged on the upper cover plate and is fixedly connected with the through hole, and the liquid outlet end of the heating pipe is inserted into the through hole arranged on the lower cover plate and is fixedly connected with the through hole. The electric heating element is a slender heating wire and is wound on the pipe wall of the heating pipe, two ends of the electric heating element are led out from the shell and are used for being connected with an external cable, and after the electric heating element is electrified, fluid in the heating pipe is heated. Compared with the existing steam generator, the underground electric heating steam generator has a better heating effect.
Description
Technical field
The utility model relates to viscous crude field heat extraction by steam injection technology field, particularly a kind of downhole electric heating steam generator.
Background technology
Viscous crude resource is widely distributed in China, and in the past because the viscosity of this quasi-oil is very high, the flow resistance in oil reservoir and pit shaft is very big, is difficult to effective exploitation.Recently the more than ten years, along with appearance and the development of heat extraction by steam injection technique, make viscous crude field obtain effective exploitation.Heat extraction by steam injection technique also become in thickened oil recovery be widely used, one of method that efficiency is higher.
The object of described heat extraction by steam injection technique is to reduce thick oil viscosity to be developed.Its method conventionally adopting is to be injected into down-hole by adopting steam generator that clear water is heated to be to vapours, by increasing the temperature on stratum, reaches the object that reduces viscosity of thickened oil.The reduction of described viscosity of thickened oil is conducive to described viscous crude the reducing of flow resistance in oil reservoir and pit shaft.When described viscosity of thickened oil reduces, in oil reservoir and pit shaft, flow resistance reduces, just can to it, exploit by conventional methods.
Current described steam generator mainly comprises: ground steam generator and underground heat disaster steam generator.Wherein downhole steam generator comprises: down-hole fuel combustion steam generator and downhole electric heating steam generator.
Existing downhole electric heating steam generator structural representation wherein, as shown in Figure 1.Described downhole electric heating steam generator comprises: water inlet 1, heating tube 2, resistive heating device 3, hot venthole 4, cable connector 5.Described downhole electric heating steam generator is arranged in sleeve pipe 6.During use, fluid enters described downhole electric heating steam generator from described water inlet 1, then flows into described heating tube 2.The middle pipeline section of described heating tube 2 is provided with resistive heating device 3, and the fluid of described inflow heating tube 2 is heated.Described fluid after heating finally flows out from described hot venthole 4.
Yet because described heating tube 2 is single S type bend pipe, 3 of described resistive heating devices heat described part heating tube 2, in the less and fluid flow resistance in described S type heating tube 2 of when heating heating surface (area) (HS, have caused more greatly described downhole electric heating steam generator heating effect poor.
Utility model content
The purpose of this utility model is to provide a kind of downhole electric heating steam generator, and described downhole electric heating steam generator has good heating effect.
For achieving the above object, the technical scheme that the utility model provides is as described below:
Downhole electric heating steam generator, comprising: housing, heating tube, electrical heating elements, wherein,
Described housing comprises: urceolus, shell joint, upper cover plate, lower cover; Wherein urceolus integral body is hollow cylinder, and its hollow space is through hole, and one end of described through hole is fixedly connected with the upper cover plate matching, and the other end is fixedly connected with the lower cover matching; Described shell joint is arranged between urceolus and oil pipe, and its one end is provided with screw thread and is connected with described oil pipe, and the other end is fixedly connected with upper cover plate or urceolus;
Described heating tube integral body is hollow cylinder, its hollow space is through hole, fluid circulates from described through hole, the feed liquor tube head of described heating tube coordinates with the upper cover plate hole that described upper cover plate arranges, and be fixedly connected with it, its fluid tube head coordinates with the lower cover plate hole that described lower cover arranges, and is fixedly connected with it;
Described electrical heating elements integral body is elongated heating wire, be wrapped on the tube wall of heating tube, draw for being connected with outside cable from housing at two of described electrical heating elements, after described electrical heating elements energising, the fluid in described heating tube is heated.
In a preferred embodiment, described downhole electric heating steam generator also comprises supporting clapboard, it is arranged on urceolus inside, on its surface, be provided with the first through hole mating with heating tube, and the second through hole mating with electrical heating elements, heating tube is plugged in the first through hole of described supporting clapboard, and is fixedly connected with it.
In a preferred embodiment, the quantity of described supporting clapboard is at least one.
In a preferred embodiment, on the hole wall of described supporting clapboard the second through hole, be provided with insulating blanket or insulating part.
In a preferred embodiment, the mode being fixedly connected with described in is welding.
In a preferred embodiment, draw from housing at two of described electrical heating elements, and the mode being connected for the cable with outside is specially by the insulating joint assembly that through hole is set on described upper cover plate and coordinate with it and realizes.
In a preferred embodiment, described insulating joint assembly specifically comprises: electric conductor, insulating barrier, bolt, sealing ring; Wherein said electric conductor quantity is two, and upper end is provided with cable connector, and for being connected with outside cable, lower end is provided with electrical heating elements joint and is connected with described electrical heating elements two end connectors; Described electric conductor is arranged in insulating barrier, and described insulating barrier coordinates with the through hole arranging in bolt, and described bolt through hole outside and described upper cover plate matches, and described sealing ring is arranged on the lower surface of bolt and matches.
In a preferred embodiment, the external diameter of described urceolus is greater than the external diameter of oil pipe.
In a preferred embodiment, the feed liquor tube head of described heating tube is tubaeform, and sectional dimension is up big and down small.
In a preferred embodiment, described heating tube quantity is even number root.
Beneficial effect: described downhole electric heating steam generator, to compare with existing steam generator, it has many heating tubes, and THS is long-pending large thereby have a good heating effect.This pipe heater outside upper end is horn mouth, and pipe shaft is straight tube structure, and when fluid is flowed in described heating tube, flow resistance reduces greatly, thereby has reduced the pressure of ground pumping-in equipment.
Accompanying drawing explanation
Fig. 1 is a kind of downhole electric heating steam generator structural representation in prior art;
Fig. 2 is downhole electric heating steam generator structure cutaway view in the utility model embodiment;
Fig. 3 is downhole electric heating steam generator top view in the utility model embodiment;
Fig. 4 is downhole electric heating steam generator upper cover plate structural representation in the utility model embodiment;
Fig. 5 is downhole electric heating steam generator lower cover structural representation in the utility model embodiment;
Fig. 6 is downhole electric heating steam generator supporting clapboard structural representation in the utility model embodiment;
Fig. 7 is the cut-away view of downhole electric heating steam generator insulating part in the utility model embodiment;
Fig. 8 is downhole electric heating steam generator insulating joint assembly partial sectional view in the utility model embodiment;
Fig. 9 is the schematic diagram of downhole electric heating steam generator under use state in the utility model embodiment.
The specific embodiment
Below in conjunction with the drawings and specific embodiments, the technical solution of the utility model is elaborated, be to be understood that these embodiment are only not used in restriction scope of the present utility model for the utility model is described, after having read the utility model, those skilled in the art all fall in the application's claims limited range the modification of the various equivalent form of values of the present utility model.
Described upper or upper/lower positions is the use state after entering down-hole for downhole electric heating steam generator herein, exactly, the residing position, one end that the fluid of described downhole electric heating steam generator flows into be upper relatively, under the residing position, one end of fluid outflow is relatively.
In embodiment of the present utility model, described downhole electric heating steam generator as shown in Figure 2, comprising: housing 1, heating tube 2, electrical heating elements 3, wherein,
Described housing 1 comprises: urceolus 11, shell joint 12, upper cover plate 13, lower cover 14, wherein,
Described urceolus 11 integral body are a hollow cylinder, and its hollow space is through hole.In described through hole, be provided with many heating tubes 2.The cross section of described urceolus 11 is preferably circle.Described urceolus 11 is arranged in sleeve pipe, and its external diameter is less than the internal diameter of described sleeve pipe.Guaranteeing that described urceolus 11 can be lowered under the prerequisite of sleeve pipe smoothly, the diameter of section of described urceolus 11 is larger, the heating tube 2 that can hold on its cross section is just more, and the sectional area of heating is just larger, thereby the heating effect of whole downhole electric heating steam generator is just better.The upper surface of described urceolus 11, is provided with upper cover plate 13.Described upper cover plate 13 is with described urceolus 11 for being sealedly and fixedly connected, and its concrete connected mode can be welding.The appearance and size of described upper cover plate 13 and described urceolus 11 upper surface sizes match.The external diameter of concrete described urceolus 11 upper surfaces can approach with the external diameter of described upper cover plate 13 or the internal diameter of described urceolus 11 upper surfaces can approach with the external diameter of described upper cover plate 13.The lower surface of described urceolus 11, is provided with lower cover 14.Described lower cover 14 is with described urceolus 11 for being sealedly and fixedly connected, and its concrete connected mode can be welding.The appearance and size of described lower cover 14 and described urceolus 11 lower surface sizes match.The external diameter of concrete described urceolus 11 lower surfaces can approach with the external diameter of described lower cover 14 or the internal diameter of described urceolus 11 lower surfaces can approach with the external diameter of described lower cover 14.When the internal diameter of described urceolus 11 upper surfaces and the external diameter of described upper cover plate 13 approach, described upper cover plate 13 can be arranged in the through hole of described urceolus 11, the one end flowing near fluid.
Described shell joint 12 integral body can be divided into two parts: two section 122 of one section 121 of joint and joint.One section of 121 integral body of described joint can be a hollow cylinder, and described hollow space is through hole.On the surface that described joint is a section 121, tapered thread can be set, for connected pipes.When one section of 121 part being connected of described oil pipe and described joint is external screw thread, described joint arranges internal thread at its through hole inner surface for one section 121 and coordinates with it.When one section of 121 part being connected of described oil pipe and described joint is internal thread, described joint arranges external screw thread at its outer surface for one section 121 and coordinates with it.Described joint can be for two section 122 tubaeform, and lower end diameter is greater than upper end diameter.Two section 122 of described joint connects for the size transition that realizes joint between a section 121 and urceolus 11.The lower surface that two section of 122 upper surface of described joint and described joint are one section 121 connects as one.The upper surface of two section of 122 lower surface of described joint and described urceolus 11 or upper cover plate 13 fixed seal connections.Described fixed seal connection mode can be welding.Two section of 122 lower surface of described joint can be consistent with the shape and size of the upper surface of urceolus 11, is preferably coincidence.The top view of described shell joint 12 as shown in Figure 3, known from its top view, in described shell joint 12, is provided with an opening 123.Described opening 123 can be arranged on two section of 122 tubaeform pipeline section of joint, and described opening 123 can be used as the connector of described electrical heating elements 3 and cable.
As shown in Figure 4, described upper cover plate 13 monnolithic cases match with the upper surface of described urceolus 11 described upper cover plate 13, and reach and be sealedly and fixedly connected.Concrete, described upper cover plate 13 can be tightly connected and be integrated by the mode of welding and the upper end of described urceolus 11.When described urceolus 11 cross sections are annular, described upper cover plate 13 integral body are cake type.On the upper cover plate 13 of described cake type, be provided with a plurality of upper cover plate holes 131.Described upper cover plate hole 131 is circular port, for coordinating with described heating tube 2 feed liquor tube heads 21.Described in during concrete cooperation, heating tube 2 feed liquor tube heads 21 can insert in the upper cover plate hole 131 of described upper cover plate 13, and are sealedly and fixedly connected.Described being sealedly and fixedly connected can be welding.The quantity of described upper cover plate hole 131 is consistent with the quantity of described heating tube 2.On described upper cover plate 13, be also provided with a through hole 132, for described electrical heating elements is drawn.
Described lower cover 14 as shown in Figure 5, described lower cover 14 monnolithic cases with shown in the lower surface of urceolus 11 match, and reach and be sealedly and fixedly connected.Concrete, described lower cover 14 can be tightly connected and be integrated by the mode of welding and the lower end of described urceolus 11.When described urceolus 11 cross sections are annular, described lower cover 14 integral body are cake type.On the lower cover 14 of described cake type, be provided with lower cover plate hole 141.Described lower cover plate hole 141 is circular port, for coordinating with described heating tube 2 fluid tube heads 23.During concrete cooperation, the fluid tube head 23 of described heating tube 2 can insert in the lower cover plate hole 141 of described lower cover 14 and be sealedly and fixedly connected.Described being sealedly and fixedly connected can be welding.The quantity of described lower cover plate hole 141 is consistent with the quantity of described heating tube 2.
Described heating tube 2 integral body can be hollow long column body, and described hollow space is through hole, for flowing of fluid.As shown in Figure 2, described heating tube 2 comprises feed liquor tube head 21, middle pipeline section 22, fluid tube head 23.Wherein said feed liquor tube head 21 can be tubaeform tube head, and the sectional dimension of described tube head reduces from top to bottom gradually, until identical with the sectional dimension of described middle pipeline section 22.The size shape of described fluid tube head 23 can be consistent with the size shape of described middle pipeline section 22.The sectional area of described heating tube 2 each pipeline sections is preferably circle.The described upper end mouth of pipe 21 can be plugged in the upper cover plate hole 131 of described upper cover plate 13 settings, and fixed seal connection with it.The mode of described fixed seal connection can be welding.Described fluid tube head 23 can be plugged in the lower cover plate hole 141 of described lower cover 14 settings, and fixed seal connection with it.The mode of described fixed seal connection can be welding.Described in heating tube 2, flaring feed liquor tube head 21 is in conjunction with middle pipeline section 22 structures of straight tube pipeline section, is conducive to reduce the fluid flow resistance in empty part through hole therein.Thereby can reduce the pressure of ground pumping-in equipment.Described heating tube 2 outer surfaces also can arrange supporting clapboard 5, and described supporting clapboard 5, for supporting heating tube 2, avoids heating tube 2 because length is oversize, to occur distortion.The quantity of described heating tube 2 is many, in Nei Deng gap, the space of described urceolus 11, is evenly arranged.The quantity of described heating tube 2 is more, and its sectional area is larger, and the effect of heating just can be better.
Described supporting clapboard 5 is arranged on the inside of described urceolus 11, and its whole outline can match with the inner surface profile of described urceolus 11 or be more smaller than the inner surface profile of described urceolus 11.As shown in Figure 6, integral body can be cake type to described supporting clapboard 5.On described cake, be provided with two groups of circular holes, be respectively big hole 51 and small sircle hole 52.The quantity of described big hole 51 and small sircle hole 52 can be identical.Match for the external diameter of the cross sectional shape with described heating tube 2 in described big hole 51 apertures.During concrete cooperation, described heating tube 2 inserts in the hole of described big hole 51, and achieves a fixed connection.The described mode that is fixedly connected with can be welding.The diameter of described big hole 51 is not less than the external diameter of described heating tube 2 middle pipeline sections 22.Described small sircle hole 52 is for coordinating with described electrical heating elements 3.During concrete cooperation, described electrical heating elements 3 is through described small sircle hole 52.The hole sectional dimension of described small sircle hole 52 is greater than the sectional dimension of described electrical heating elements 3.Week in described small sircle hole 52 holes upwards can arrange insulating blanket or insulating part 53.
As shown in Figure 7, inside has a through hole to described insulating part 53.Described through hole is for coordinating with described electrical heating elements 3.External overall is a multidiameter, and described multidiameter can be divided into two sections: first paragraph 531 and second segment 532.The external diameter of described first paragraph 531 is greater than the aperture of described small sircle hole 52.The aperture of the external diameter of described second segment 532 and described small sircle hole 52 approaches or is bigger.When described insulating part 53 assembles with described small sircle hole 52, described second segment 532 parts are filled in described small sircle hole 52, and described first paragraph 531 parts are stuck on the upper surface of described small sircle hole 52.Described insulating blanket or insulating part 53 are for guaranteeing described electrical heating elements 3 and supporting clapboard 5 insulation.The quantity of described supporting clapboard 5 is a plurality of, generally selects two.Described two supporting clapboards 5 specifically can be separately positioned on 1/3rd places and 2/3rds places on described heating tube 2 length directions, to play the described heating tube 2 of good support, prevent the effect of its distortion.At described heating tube 2 outer surfaces, be enclosed with electrical heating elements 3 in addition.
Described electrical heating elements 3, as shown in Figure 2, integral body can be a long root heating wire, and the electric energy conversion that surface power supply equipment can be provided is heat energy.Described electrical heating elements 3 is wrapped in the outer surface of described each heating tube 2 successively.Can be specifically from the top of pipeline section 22 in the middle of described heating tube 2, be wound around downwards.While being provided with supporting clapboard 5 on heating tube 2 pipeline sections, described electrical heating elements 3 through the place of described supporting clapboard 5 by insulating blanket being set or insulating part is realized insulation protection.The quantity of described heating tube 2 is preferably even number, thereby two end connectors of realizing described electrical heating elements 3 can be drawn from a place.When described electrical heating elements 3 is that the situation that starts from upper end to be wound around, the two ends of described electrical heating elements 3 can be drawn on the upper extreme direction of heating tube 2.Two end connectors of drawing rear described electrical heating elements 3 are connected and are powered with outside cable, thereby realize, by electric energy conversion, are heat energy.The described electrical heating elements 3 that adds obtains after electrical heating, and the effect of logical heat transfer, gives the heating tube 2 of contact with it by thermal energy transfer.Then heating tube 2 gives by thermal energy transfer the fluid being in its through hole again.
The mode that described electrical heating elements 3 is drawn is specifically as follows by be provided with insulating joint assembly 4 on described upper cover plate 13 and realizes.On described upper cover plate 13, specifically for through hole 132 shapes that coordinate with described insulating joint assembly 4, can be a shoulder hole.Described shoulder hole integral body can be divided into two parts, and upper part aperture is larger, and on hole surface, is provided with screw thread; Lower part aperture is less, can be unthreaded hole.Described upper part hole length in the axial direction can be greater than the length in described lower part hole on the whole.
Described insulating joint assembly 4 as shown in Figure 8, comprises electric conductor 41, insulating barrier 42, bolt 43, sealing ring 44.Described electric conductor 41 quantity are two, and upper end is provided with cable connector 411, for being connected with external cable; Lower end is provided with electrical heating elements joint 412, for two end connectors of drawing with described electrical heating elements 3, is connected.Described electric conductor 41 can be arranged in insulating barrier 42, and described insulating barrier 42 is for realizing insulation between described electric conductor 41 and downhole electric heating steam generator.Described insulating barrier 42 integral body can be a cylinder, can be arranged in bolt 43.Corresponding, described bolt 43, inside is provided with a through hole 431 for coordinating with described insulating barrier 42.The outer setting of described bolt 43 has nut 432 and screw rod 433.The external diameter of described nut 432 is greater than the aperture of the through hole 132 arranging on described upper cover plate 13.Match in the aperture of the external diameter of described screw rod 433 and described through hole 132.In the lower surface of described bolt 43, be also provided with a sealing ring 44.Described sealing ring 44 matches with described bolt 43 on the whole.The concrete external diameter of described sealing ring 44 and the external diameter of screw rod 433 parts of described bolt 43 coupling; The aperture of the through hole 431 of its internal diameter and bolt 43 is identical.Described insulating joint assembly 4 can be realized on the whole described electrical heating elements 3 is fixedly connected with external cable, simultaneously with upper cover plate 13 insulation.The concrete structure of described insulating joint assembly 4 can also be other forms, for example, at the tapping of upper cover plate 13, shell joint 12, establish one whole hollow insulating bar, and described electrical heating elements 3 is drawn from described hollow space, is connected with described external lug.
When described electrical heating elements is connected by described insulating joint assembly 4 with described external cable, first the two ends of described electrical heating elements 3 are extracted in the through hole 132 of described upper cover plate 13, be connected with two electrical heating elements joints 412 of described insulating joint assembly 4 respectively; Then insulating joint assembly 4 is screwed in the through hole 132 of described upper cover plate 13 on the whole; Finally again external cable is connected with two stube cable joints 411 of described insulating joint assembly 4.The mode that described electrical heating elements 3 is connected with described electrical heating elements joint 412, cable connector 411 with cable 4A can be welding.
The assemble method of described downhole electric heating steam generator is: first heating tube 2 and supporting clapboard 5 are fitted together, after parcel electrical heating elements 3, integral body is filled in urceolus 11; Then upper cover plate 13, lower cover 14 and shell joint 12 welding are got on; Last installing insulating adapter assembly 4.
The system schematic of downhole electric heating steam generator 1A described in the utility model under use state, as shown in Figure 9.
Described system comprises: downhole electric heating steam generator 1A, oil pipe 2A, heat-resistant packer 3A, cable 4A, temperature monitoring wire 5A, oil reservoir 6A, ground pumping-in equipment 7A, surface power supply equipment 8A and sleeve pipe 9A.
Wherein said heat-resistant packer 3A is for the annular space between packing oil pipe 2A and sleeve pipe 9A.
Described cable 4A is used for connecting described electrical heating elements 3 and surface power supply equipment 8A.
Described temperature monitoring wire 5A is for monitoring the temperature of pit shaft steam.
Described ground pumping-in equipment 7A is for injecting the clear water through scale removal, filtration to oil pipe.
Described surface power supply equipment 8A is for the electrical heating elements 3 supply electric energy to described downhole electric heating steam generator 1A.
Downhole electric heating steam generator 1A described in the utility model in use, first it is connected with oil pipe 2A by shell joint 12, between described oil pipe 2A and sleeve pipe 9A, be provided with heat-resistant packer 3A, cable 4A is connected with the insulating joint assembly 4 of downhole electric heating steam generator 1A through described heat-resistant packer 3A, temperature monitoring wire 5A is through described heatproof packer 3A, for monitoring the temperature of pit shaft steam.Downhole steam generator 1A is lowered to the oil reservoir position of oil well.Utilize ground pumping-in equipment 7A from oil pipe 2A, to inject the clear water through scale removal, filtration, surface power supply equipment 8A is electrical heating elements 3 power supplies to downhole electric heating steam generator 1A by cable 4A, make electrical heating elements 3 heatings, clear water by heating tube 2 is heated into steam, be injected in oil reservoir, thereby for oil reservoir provides heat energy, reach and reduce described oil reservoir Crude Oil viscosity object.Described downhole electric heating steam generator 1A can be widely used in heavy crude heat extraction field.
The utility model structurally adopts the interior many heating tubes 2 that arrange of urceolus 11, make the total sectional area of described heating tube 2 suitable with the sectional area of oil pipe 2A, the earth of comparing with existing downhole electric heating steam generator increases heat-conducting area, and heating effect is greatly improved.Heating tube 2 is straight tube structure on the whole in addition, and has tubaeform feed liquor tube head 21 as fluid intake structure.The flow resistance when structure of described heating tube 2 can reduce fluid circulation greatly.After described fluid flow resistance reduces, the infusion pressure of ground pumping-in equipment 7A is corresponding the reducing of energy just, thereby the withstand voltage properties of surface pump note equipment 7A and underground equipment is required to reduce, and also can reduce infusion energy loss in addition simultaneously.In addition, the utility model itself is simple in structure.
The foregoing is only several embodiment of the present utility model, although the disclosed embodiment of the utility model as above, the embodiment that described content just adopts for the ease of understanding the utility model, is not intended to limit the utility model.Any the utility model person of ordinary skill in the field; do not departing under the prerequisite of the disclosed spirit and scope of the utility model; can in the formal and details of embodiment, do any modification and variation; but scope of patent protection of the present utility model, still must be as the criterion with the scope that appended claims was defined.
Claims (10)
1. downhole electric heating steam generator, is characterized in that, comprising: housing, heating tube, electrical heating elements, wherein,
Described housing comprises: urceolus, shell joint, upper cover plate, lower cover; Wherein urceolus integral body is hollow cylinder, and its hollow space is through hole, and one end of described through hole is fixedly connected with the upper cover plate matching, and the other end is fixedly connected with the lower cover matching; Described shell joint is arranged between urceolus and oil pipe, and its one end is provided with screw thread and is connected with described oil pipe, and the other end is fixedly connected with upper cover plate or urceolus;
Described heating tube integral body is hollow cylinder, its hollow space is through hole, fluid circulates from described through hole, the feed liquor tube head of described heating tube coordinates with the upper cover plate hole that described upper cover plate arranges, and be fixedly connected with it, its fluid tube head coordinates with the lower cover plate hole that described lower cover arranges, and is fixedly connected with it;
Described electrical heating elements integral body is elongated heating wire, is wrapped on the tube wall of heating tube, and draw from housing at two of described electrical heating elements, for being connected with outside cable; After described electrical heating elements energising, the fluid in described heating tube is heated.
2. downhole electric heating steam generator as claimed in claim 1, it is characterized in that: described downhole electric heating steam generator also comprises supporting clapboard, it is arranged on urceolus inside, on its surface, be provided with the first through hole mating with heating tube, and the second through hole mating with electrical heating elements, heating tube is plugged in the first through hole of described supporting clapboard, and is fixedly connected with it.
3. downhole electric heating steam generator as claimed in claim 2, is characterized in that: the quantity of described supporting clapboard is at least one.
4. downhole electric heating steam generator as claimed in claim 2, is characterized in that: on the hole wall of described supporting clapboard the second through hole, be provided with insulating blanket or insulating part.
5. downhole electric heating steam generator as claimed in claim 1 or 2, is characterized in that: described in the mode that is fixedly connected be welding.
6. downhole electric heating steam generator as claimed in claim 1, is characterized in that: two of described electrical heating elements lead-out mode from housing, is specially by the insulating joint assembly that through hole is set on the upper cover plate of described housing and coordinate with it and realizes.
7. downhole electric heating steam generator as claimed in claim 6, is characterized in that: described insulating joint assembly specifically comprises: electric conductor, insulating barrier, bolt, sealing ring; Wherein said electric conductor quantity is two, and upper end is provided with cable connector, and for being connected with outside cable, lower end is provided with electrical heating elements joint and is connected with described electrical heating elements two end connectors; Described electric conductor is arranged in insulating barrier; Described insulating barrier coordinates with the through hole arranging in bolt; Described bolt through hole outside and described upper cover plate setting matches; Described sealing ring is arranged on the lower surface of bolt and matches.
8. downhole electric heating steam generator as claimed in claim 1, is characterized in that: the external diameter of described urceolus is greater than the external diameter of oil pipe.
9. downhole electric heating steam generator as claimed in claim 1, is characterized in that: the feed liquor tube head of described heating tube is tubaeform, and sectional dimension is up big and down small.
10. downhole electric heating steam generator as claimed in claim 1, is characterized in that: described heating tube quantity is even number root.
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CN201420053994.9U CN203810358U (en) | 2014-01-27 | 2014-01-27 | Underground electric heating steam generator |
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CN201420053994.9U CN203810358U (en) | 2014-01-27 | 2014-01-27 | Underground electric heating steam generator |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103759240A (en) * | 2014-01-27 | 2014-04-30 | 中国石油天然气股份有限公司 | Underground electric heating steam generator |
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2014
- 2014-01-27 CN CN201420053994.9U patent/CN203810358U/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103759240A (en) * | 2014-01-27 | 2014-04-30 | 中国石油天然气股份有限公司 | Underground electric heating steam generator |
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