CN1006595B - Slender resistance-heater with variable rate of heating - Google Patents

Abstract

The present invention relates to a resistance heater which can generate heat at different rates in different positions of the length. The heater comprises a continuous whole electric conductor of which the thickness varies along different positions of the length.

Description

Slender resistance-heater with variable rate of heating

The present invention relates to a kind of method and apparatus that heats elongated space or zone (elongated heater is arranged).More particularly, the present invention relates to heat the resistance heater of elongated underground hoistway, it can heat with different speed at the different depth of hoistway.

As everybody knows, use elongated heater, hoistway heater for example, the interval of heating subterranean strata, the inside of pipeline, or other elongated space is useful.In many cases, people wish to heat such space for a long time with high relatively temperature.Heating the useful result that is obtained like this comprises: the thermal decomposition of oil shale layer; The coking oil is to solidify not solidified reservoir.The coking oil can be used as the conductive carbonized district of electrode with formation in reservoir, the transfer of heat of the hydrocarbon of from oil or pitch, deriving to the production area; Prevent to form hydrate, the similar substance in sediment or the liquid stream, these materials be in well, produce and/or by pipeline or similar device transmission.

The object of the present invention is to provide a kind of firing equipment, it can produce heat with different speed at the different depth of well.

According to the electric conductor that the invention provides a kind of extension, it is continuous integral body, and has different thicknesses along the diverse location on its length, therefore, when along homogeneous medium conduction current, this conductor can produce heat with different speed at the diverse location on its length.

In an optimum implementation, electric conductor comprises a single malleable metallic core, and it is trapped among in the metal-back by solid insulating material.Have at least a part of core body to combine the relation of the resistance of thickness and unit length, therefore, during in being placed on a homogeneous medium and with selected speed conduction current, it can produce and the transmission heat with selected speed.Have at least another part core body than above-mentioned parts of fine some, therefore, during in being placed on same homogeneous medium and with same speed conduction current, it can produce and the transmission heat with a selected higher rate.

According to another design of the present invention, provide the method for in well, utilizing this conductor to heat a slender space.Therefore, the electric conductor that the diverse location thickness on its length is different extends along the hoistway that will heat.The thick and thin part of this electric conductor is to arrange like this, has at least thin part to place along the hoistway of part heating, and thermal conductivity is equal to or higher than along the thermal conductivity of the other parts of this well in this a part of hoistway.Then, an electric current flows through this conductor.

In a best approach, used electric conductor is one to have the cable of single conductive core, and this core body is made by malleable metal and is trapped among in the metal-back by solid insulating material.By compression to cable and core body, have at least the thickness of a part of core body to reduce certain amount, this reduction is with in the space that will heat, and the speed that produces heat or temperature is relevant, makes in this space different in different position speed.

Explain the present invention with reference to the accompanying drawings in more detail.In the accompanying drawings:

Fig. 1 is applicable to the three-dimensional views of forging and not forging the conductive cable of part that includes of the present invention.

Fig. 2 is the sketch map that a resistance heater is installed in well according to the present invention.

Fig. 3 has provided a metal-back insulation service cable and can be used as joint between the metal-back insulated cable of heating element of the present invention.

Fig. 4 and Fig. 5 show the heating cable that is applicable to pair of metal shell mineral insulation of the present invention conductive core be electrically connected joint.

Fig. 6 has provided and has been applicable to power circuit of the present invention.

At least the present invention partly is found to be prerequisite with such one, promptly the characteristic of an electric conductor (the metal-back solid material insulation conductive cable that for example comprises a single copper core) is such, result to the outside press forging of its metal-back, pass to the core body of cable by insulating barrier, make each sectional area in these parts reduce same relative quantity basically simultaneously.It is much higher that minimizing that can control cable core body sectional area produces the forging part of cable in the unit interval heat does not forge part, even also be like this when lower temperature.

In an optimum implementation of the present invention, this forging is finished by swaging, comes extruded cable with the repeatedly strike that rotary die applied exactly.Rotary forging apparatus and technology are known and available.This machine generally includes two moulds, and they are installed in reciprocating motion promptly on the main shaft, and this main shaft then is in rotation.One extruding swaging operation comprises and forges action that it is the same with forging, the same benefit materials of formation on metal.It produces desirable grainiess, causes tensile strength and flexible increase.The purpose that cold (on the temperature) forges is to make most of metal material hardening, if desired, by annealing, can make this hard more flexible that becomes.

In swaging operation, can very accurately control the long-pending degree that reduces of material section of being forged.For example, because metal-back solid material insulated copper core conductive cable is equivalent to solid material in the swaging process, therefore, to be about 0.68cm can be swaged into minor diameter to such cable of 1.25cm to diameter, and its precision is approximately ± 0.0025cm.

The forging that Fig. 1 shows a cable recommending to be used for the present invention with do not forge part.In the diagram cable, one stainless steel case 2 is round a mineral insulation body 3, this insulator is made up of magnesian high compression particulate, basically a solid conduction core body 4 insulated bodys and the shell of being made by fine copper is trapped among the centre with one heart, and in the cable of illustrated type, the internal diameter of shell 2 and external diameter are respectively 7.25mm and 9mm, the diameter of core body 4 is 3mm, do not forging part, when transmitting the alternating current of 180A, cable can produce about 600 ℃ temperature.Yet in the part of the forging of cable, diameter has reduced 16%, and when the onesize electric current of conduction in same medium, the temperature of generation is about 850 ℃.

In optimum implementation, the present invention can be used to provide the method and apparatus of an ad hoc structure (formation-tailored), comes evenly the earth formation of next long section heatedly with high temperature.According to this method, underground interval is heated by a kind of electric heater, this electric heater comprise at least one can around the volume the box hat mineral insulated cable, this cable has the solid-core of a good conductivity.This cable can be used to heat earth formation, and therefore, heat is imported in the structure sheaf with uniform speed basically, even surpass about 330W/m when heating, temperature also is like this between 600 ℃ to 1000 ℃.The uniformity of heat transfer guarantees by a kind of like this heater is provided, and the used resistance of this heater different depth in well is relevant with the thermal conductivity of earth formation around the corresponding different depth.

Fig. 2 has provided the optimum implementation that is installed in the hoistway heater of the present invention in the well.As shown in the figure, the a pair of heater cable that forged selectively (it forges and the type such as Fig. 1 institute body that do not forge part) is put into well by cloth cable device 5 and 6, simultaneously, one strutting piece 7, for example the metal catheter that maybe can reel of a metal wire is also put into well from a cloth cable device (not shown) simultaneously.The lower end of strutting piece 7 links to each other with a propulsion plant 8, for example, is a sinker bar in vertical shaft, then is that available pump is taken out or other propulsion plant in concrete horizontal down-hole.The bottom of heating cable, the part 1b that forged mechanically links on a cable joint or the terminal fitting 9, and wherein, conductive core connects at internal electric, (providing in detail as Fig. 4).Joint 9 is also mechanically linked strutting piece 7, for example by device for fastening 12.The lower end of cable section has been forged thereby has been increased heating properties, and their internal electrics in joint 9 connect, and are positioned at selected reception and increase area heated.

The part 1a that do not forge of heating cable is used for along wanting heating region to carry out the trace heating, they are positioned on the forging part 1b and extend a segment distance so that reach an enough cold zone, with joint or spelling joint 1a part and 10 inner connections of service cable with heating cable, so electric or mechanically connect and power and heating cable.Service cable 10 is used to transmit the selected magnitude of current, but itself only produces the heat of trace.Service cable with the metal-back mineral insulation uses, and is applicable to that machinery and the details that is electrically connected the joint of cable are shown in Fig. 3.

When heating cable 1 and service cable 10 were put into well with load-bearing twisted wire 7, cable linked to each other with twisted wire 7 by anchor clamps or device for fastening 12 piecewises.This anchor clamps are used for producing friction between cable and twisted wire, this friction is enough to support to put the weight that this section cable length in the middle of two anchor clamps is produced.

Fig. 3 shows the details of the optimum structure of spelling joint 11.As shown in the figure, service cable 10 has a metal-back 14, for example is a bronze medal shell, and round the conductive core 13 of an insulation, this core body combines the relation of the resistance of sectional area and unit length, enables to transmit the electric current that is used for heating operation, and only produces the heat of trace.As shown in the figure, the shell 14 of service cable and core body 13 are bigger than the shell that does not forge part 1a 2 and the core body 4 of heating cable.The conductive core internal electric of this cable connects, and preferably utilizes welding.Generally speaking, service cable can be made of any type of cable basically.Under the temperature that the micro-heating part (for example 1a) of heating cable produces, it has enough thermal stabilitys.Enough low and/or power supply arrives the distance wanted between area heated enough in short-term when selected maximum heating temperature, service cable can be made of the cable of metal-back mineral insulation solid core, it is forged selectively so that selected heating-up temperature to be provided, therefore do not need spelling joint, for example spelling joint 11.

As shown in Figure 3, a short relatively sleeve 15, for example a steel bushing is fixed on around the shell 14 of feed cable 10, with welding or brazing or with other mechanical means it is connected with shell 14.Preferably select sleeve 15 to have such internal diameter, form an annular space in it and 2 on shell, the short steel bushing 16 around the shell that is fixed on cable 1a is large enough to hold in this space.In best assembling process, before inserting short sleeve 16, cable core 4 and 13 and sleeve 15 between whole annular spaces all be full of a kind of Powdered mineral insulation material, for example magnesium oxide basically.Insulating material preferably is placed in the space between the shell 2 of the annular space of 15 of cable core and sleeve pipes and sleeve 15 and cable 10, and vibrates and make the mineral insulation material granule solid.Sleeve 16 is squeezed in the space between sleeve 15 and the shell 2 then, makes the mineral insulation material granule more solid owing to squeeze into the power of generation. Last sleeve 15 and 16 and shell 2 welded or be brazed together.

Fig. 4 shows the details of a terminal fitting or spelling joint 9.As shown in the figure, cable 16 passes the hole in the bloom 9, and therefore, very short a part of 1c enters in the cylindric opening of bloom mid portion.The conductive core of cable is soldered to together at solder joint 17, and the cable shell is soldered on the bloom 9 at solder joint 18.The center conductive body of cable is preferably encased by a heat-staple electrical insulating material, and powdered mineral particle that for example a pile is closely knit and/or ceramic small pieces (not shown) are wrapped after the insulating material, with the central opening sealing, for example, the steel disc (not shown) of burn-oning.When on heater being linked an elongated cylindrical component 7, supporting it, as shown in Figure 2, preferably open a groove 19, to cooperate with member and terminal fitting can be advantageously connected on this member, such as utilizing device for fastening 12 along the outside of terminal fitting 9.

Fig. 5 has provided a kind of terminal fitting of optimised form, and it need not cut and weld a heating cable and form a pair of heating cable, for example cable 1b.Heating cable just becomes the U type simply and tightens clamping plate 21 by one and mechanically clips on the bloom 20.Bloom 20 preferably has a groove 22 to be beneficial to it is clipped on the cylindrical component, cylindrical-shaped structure spare 7 for example shown in Figure 2.

In general, power supply component can be made up of with any interchange or direct current system that a selected higher speed heats the heater that can make this form.This rate of heat addition approximately is a 330W/ rice or more more.

Fig. 6 is the optimal layout of ac power supply component that is applicable to the heater of this form.This arrangement comprises the silicon controlled rectifier (SCRs) of two opposite parallel connections, is in the circuit of two elements of a two elements heater.In this balance sysmte, the conductor of heater should have same resistance, and like this, cable core tap points A(is in connector 9) can keep zero potential or virtual ground potential.The shell of heating cable links to each other with the ground connection centre cap of transformer secondary output.Because the weld in the some A GC group connector connector 9, herein and the potential difference between the shell all will be zero concerning all practicalities.These points can electric contacts but are flow through without any electric current.On those aspects that heater core moves up, potential difference between shell and center conductor increases, and reaches maximum at last, for example+240V or-240V.

In all cases, in the time of heating an elongated space, different layers in this space or the heat conduction situation in the zone are marked changes.The heat that good heat-conducting layer can be taken away heater quickly and produced than bad heat-conducting layer.The result is that the temperature that can keep at the resistance heater of a good heat-conducting layer place transmission rated current will be very low.Keep under the situation smooth or even temperature along heating space in hope,, just should reduce the sectional area of heater core in order to produce heat (as in another hot part of heater) with same speed.

Comprise the heater block of the conductor of different cross-sectional by installation, can make a resistance heater produce the selected rate of heat addition in zones of different.The more little resistance to electric current of the sectional area of core body or conductor is just big more, thereby under same temperature, the core body that this is thicker produces heat with higher speed.For example, in heated space, it can be with selected speed at a lower temperature, and layer heating will readily conduct heat.

The invention provides a kind of method that can make heater have a conductive core, this core body is continuous and integral body, producing constant and/or a selected amount of heat in one or more different pieces of heater, and need not numerous heating cable joints.Particularly time heating place of length under higher temperature, all there are the possibility of Welding Problems and seepage in the otch of heating cable and junction.

With regard to the resistance heater of forming by the metal-back solid material insulated cable (but every conductive core that comprises the metal of an extension) of a pair of internal electric connection, can arrange four groups of rotation conversion moulds, coming provides 6% from one to the other end at the initial diameter of every cable and its conductive core, 12%, 18% and 24% decrease.Reduce 6% by the diameter with the part of cable, another part reduces 12%, and then total decrease is 9%.Utilize this method, the total cross section decrease of two cables of heater can be divided into 8 the step finish per step about 10%.For example, referring to following table:

Diameter reduces the cross section and reduces

（%） （%）

2 liang of conductors of conductor 1 conductor

0 6 11.6

6 6 23.3

6 12 34.2

12 12 45.1

12 18 55.3

18 18 65.5

18 24 75.0

24 24 84.5

In this course, if use the service cable of above-mentioned recommendation, be necessary to make the all-in resistance of each conductor after its core diameter reduces of heater to equal the all-in resistance of another conductor after its core diameter reduces.This is necessary for the zero potential that guarantees the inner conductor that connects at terminal connector place.Therefore, be necessary on two length of heater, to divide equally conductive core total reduce degree.

In implementing process of the present invention, in fact can adopt any press forging process that is equivalent to or is equivalent to substantially swaging.The example of adoptable forging machine and/or technology comprises the closed forging machine of mould, for example the forging machine of Torrington company or Abbey Aetna machines corporation or Fenn manufacturing company production.

In the present invention, can use and can transmit the selected rated current that will use, and only produce the service cable of considerably less heat, this cable has good thermal stability, be beneficial to electrically or be mechanically connected on the selected metal-back cable, to produce small heat.The example of this cable comprises the cable such as BICC/Pyrotenac MI.

In general, under the situation that electric conductor need not insulate, utilizing any continuous and cable integral body (that is: is a continuous integral body, and the segmentation or the share split that do not have inside to connect), the core body of this cable or the thickness of conductor (sectional area of electric conductor just) are different at different positions along its length, all can realize the present invention.But best electric conductor comprises the single conductive core of being made by the extension metal or alloy, and it is trapped among in the heat-staple metal-back by heat-staple solid insulating material, for example is trapped among in bronze medal or the box hat by dystectic powder or solid fiber material.Here special recommendation is trapped among the copper core body in the copper shell with pulverous magnesium oxide under moderate temperature; And at high temperature, then use stainless steel case.

In general, the present invention can be used in a space, this space comprises having a zone that thermal conductivity is low at least, begins and keeps a uniform heating speed basically, and/or set up and keep the higher rate of heat addition in the selection area in the approximate uniform space of a thermal conductivity.Thermal conductivity can be by means of many known determining with available device and technology with the variation of distance in an elongated passage.

In the process of the special recommendation that utilizes the present invention to heat along the inhomogeneous passage of a thermal conductivity, in the passage that will heat, conduct the electric current that uses when electric conductor (having the structure that to use), in the time of can running into the very low homogeneous medium of thermal conductivity, select the rate of heat addition.The maximum thickness of used electric conductor is exactly the thickness that this rate of heat addition can be provided in this case.Place the thickness of that part of electric conductor in the high zone of passage thermal conductivity will do it thinly some so that can compensate the heat of taking away very soon because thermal conductivity is high basically.

In other words, produce heat along some part (for example top of subterranean formations or bottom) of the passage that will heat with speed faster if wish, although along the passage thermal conductivity that will heat is uniformly substantially, also can utilize above-mentioned this arrangement.Select needed conductor thickness of most of cable conductor and resistance, select the rate of heat addition along homogeneous medium (thermal conductivity is the same with the interval that will heat at majority).Thereby, the conductor of the selection area that extends to passage is attenuated, just can obtain the rate of heat addition faster along that part of zone of passage.

Claims (7)

1, be used for a kind of resistive heating device of slender space in the heated well, comprise an elongated electric conductor substantially, this electric conductor is continuous integral body, has different thicknesses along the zones of different of its length.Therefore, when conduction current, this conductor can produce heat with different speed in the zones of different on its length, it is characterized in that: but this electric conductor comprises one by the metal single conductive core of extension, this core body is trapped among in the armouring metal by solid insulating material, thereby forming a heating cable, this cable is along having at least a position to reduce to some extent owing to the extruding swaging to cable and core body makes its thickness on its length.

2, device according to claim 1, it is characterized in that: the relation that conductive core does not forge the resistance of thickness partly and core body is such, when this part places uniform dielectric and during with a selected speed conduction current, its produces with selected speed and transmission heat.When the forging of core body partly is placed in the above-mentioned uniform dielectric and during with above-mentioned selected speed conduction current, this forges part and produces and the transmission heat to be higher than the speed of not forging part.

3, device according to claim 1 is characterized in that: the pair of conductive core body is mutually inner to be connected, power supply and above-mentioned in the core body that connects when they are placed in the hoistway of a bite well when the load-bearing metal catheter that can reel is tied.

4, device according to claim 3 is characterized in that: described that extends into a twin-core heating cable in the hoistway to the interconnective core body in inside to formation.

5, device according to claim 4 is characterized in that: the upper end of described twin cable links to each other with the armouring metal.

6, device according to claim 1 is characterized in that: conductive core is fine copper basically.

7, device according to claim 6 is characterized in that: conductive core is trapped among in the stainless steel armouring shell by Powdered magnesium oxide.

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