DE102007041983A1 - Method for operating an electrical heating arrangement - Google Patents

Abstract

The invention relates to a method for operating an electrical heating arrangement, in which a heating line (1) is used with at least one heating conductor (2) surrounded by an insulation resistant to high temperatures. Around the heating pipe (1) around a fitting to the insulation (3) metal pipe (4) is formed around and equipped with the metal tube (4) heating power (1) is in a metallic tube (5) with respect to the metal tube (4) introduced larger diameter, which in addition to the heating line (1) encloses an axially continuous space (6). In the free space (6) is introduced a same completely filling, non-combustible gas with a lower kinematic viscosity compared to air, which is constantly kept under pressure.

Description

The The invention relates to a method for operating an electrical Heating arrangement large Length below Use of a heating cable with at least one of at high temperature resistant Insulation surrounded heating conductor.

such Heating cables are known and available on the market. Their heating conductors are For example, coated with mineral or ceramic materials, the resistant to high temperatures are. Such heating cables are basically used where a heating with high temperatures of for example up to 500 ° C take place should.

One special application of heating cables for very high temperatures the oil exploration from oil stocks, in which the oil for example in porous Rock, tied in sand or in slate. Such oil supplies are located at about 300 m depth in the ground. They extend in this Deep large area. to advancement of petroleum therefore not only set vertical holes, but they are going over in the ground size Routes continued for example 600 m. To get the oil out of these inventories as far as possible in conventional technology Completely to be able to pump it must by heating of the surrounding soil or rock in a sufficiently fluid state to be brought.

Of the Invention is based on the object, a method for operating indicate an electrical heating arrangement with which it is possible also lower-lying areas of the earth's surface with high efficiency to warm up.

• – daß um die Heizleitung herum ein an der Isolierung anliegendes Metallrohr herumgeformt wird,
• – daß die mit dem Metallrohr ausgerüstete Heizleitung in ein metallisches Rohr mit einem gegenüber dem Metallrohr größeren Durchmesser eingebracht wird, welches neben der Heizleitung einen axial durchgehenden Freiraum umschließt, und
• – daß im Betriebsfall in den Freiraum ein denselben vollständig ausfüllendes, nicht brennbares Gas mit einer gegenüber Luft geringeren kinematischen Zähigkeit eingebracht wird, das ständig unter Druck gehalten wird.

This object is achieved in a method of the type described according to the invention thereby,

• That around the heating line around a voltage applied to the insulation metal tube is formed,
• - That equipped with the metal tube heating cable is inserted into a metallic tube with a relation to the metal tube larger diameter, which encloses an axially continuous space in addition to the heating line, and
• - That during operation in the free space a same completely fills, non-combustible gas is introduced with respect to air lower kinematic viscosity, which is constantly under pressure.

Lower "air" is about to do that the earth's surface existing gas mixture, with 77% nitrogen, about 21% Oxygen and about 2% residues.

The outer metallic one Pipe serves as protection for the heating line opposite the oil to be pumped and others aggressive media, which leads to corrosion of the metal tube of Lead heating cable could. The heat generated by the heating cable (heat) of up to 1000 ° C should as possible Completely on the outer metallic Transfer tube be so desired warming achieved the oil to be pumped becomes.

With This method is the heat generated by the heating cable with high efficiency through optimal heat transfer to the outer metallic Transfer pipe, in the mounting position in direct contact with the to be heated Soil or rock is. This essential advantage is due the open-space gas with the low kinematic toughness reached, through which the heat transfer by convection between the metal tube of the heating cable and the outer metallic Tube significantly increased becomes. As a result, the metallic tube and thus also its Environment accordingly stronger heated. In the area of the metallic tube oil is thereby so heated, that it becomes fluid and easier to pump out.

The Radiation as a further proportion of the heat transfer between the metal tube the heating cable and the outer metallic Pipe can be obtained by roughening the outer surface of the pipe Metal tube increases by, for example, subjecting it to sandblasting becomes. This measure leads to a further improved transmission the heat generated by the heating cable to the outer metallic Pipe.

Preferably is used as a gas, an inert gas such as argon. That brings the further advantage that corrosion do not occur in the space enclosed by the metallic tube can, so that the Material selection for the metal tube of the heating line is not critical.

The Method according to the invention will be described with reference to the drawings as an embodiment explained.

It demonstrate:

1 a schematic representation of a usable for the method according to the invention heating arrangement with partially removed layer.

2 a cut through 1 along the line II-II in an enlarged view.

3 also schematically a laid in the ground heating arrangement.

In the 1 and 2 is a heating arrangement with a heating cable 1 shown, which is an insulated heating conductor 2 that of a high temperature resistant insulation 3 is surrounded. As materials for insulation 3 are mineral and ceramic materials suitable. The heating cable 1 may also have more than one insulated heating conductor. It can advantageously consist of three stranded, mineral-insulated heating conductors.

Over the insulation 3 of the heating conductor 2 is a metal pipe 4 attached, which rests against the insulation. It consists with advantage of a heat well conductive material. To improve the lateral stability and bendability of the metal tube 4 it may be corrugated transverse to its longitudinal direction.

The heating cable 1 is in an outer metallic tube 5 arranged, the one opposite to the diameter of the metal tube 4 larger diameter and in addition to the heating cable 1 a free space 6 encloses. The surfaces of the outer surface of the metal tube 4 and the inner surface of the outer metallic tube 5 should preferably behave as 1: 4. The open space 6 is large enough to allow a sufficient amount of gas to be introduced and held therein under pressure. The pressure with which the gas enters the free space 6 is introduced, should be at least 1 bar. The outer metallic tube 5 is at its end 7 hermetically sealed. It has a wall thickness of preferably 2 mm to 4 mm and is preferably made of stainless steel, so that rusting can be permanently excluded.

The heating arrangement also includes a metallic tube 8th through which gas enters the free space 6 can be pressed. The tube 8th is on the metal pipe 4 attached. It can run in a straight line, but also helically around the metal tube 4 to be lying around. To increase its transverse stability and its bendability is the tube 8th corrugated with advantage transversely to its longitudinal direction.

For heating a deep in the ground 9 The area located first becomes the outer metallic tube 5 installed in a borehole, through which oil is to be pumped out of an oil reservoir located in the ground. The wellbore includes a vertical bore with an approximately horizontal extension of long length. The metallic pipe is installed as it is in 3 is indicated. After that, the heating cable 1 with attached tube 8th in the outer metallic tube 5 pushed in so far that its end is about at the level of the closed end 7 is the same. After that, the metallic tube 5 also at its near end 9 tightly closed. Subsequently, the heating cable 1 to an electrical voltage source 10 connected so that it generates after switching heat, which is preferably up to 1000 ° C. The tube 8th is simultaneously connected to one with a pump 11 provided with non-combustible gas. The gas gets through the pump 11 in the tube 8th pressed. It occurs at its far end 12 and thus enters the free space 6 which it gradually fills in from the far end. Before in the open space 6 located air is forced out of the same by the gas. This is in the overhead closure of the metallic tube 5 attached with advantage a closable valve.

The pressure with which the gas enters the tube 8th and thus into the open space 6 is introduced, should - as already mentioned - be at least 1 bar. This pressure is monitored during the implementation of the method, for example by means of a manometer 13 , It is preferably kept constant by using a corresponding regulator.

That in the open space 6 Indented gas has a lower kinematic toughness than air, which is 96.7 × 10 ^-6 m ² / sec at 500 ° C. The gas used should preferably have a kinematic viscosity of at most 90 × 10 ^-6 m ² / sec at 500 ° C.

With particular advantage is used as the gas, an inert gas, such as and preferably argon, having a kinematic viscosity of 72.62 × 10 ^-6 m ² / sec. By argon as in the open space 6 gas is the heat transfer by convection between metal pipe 4 and outer metallic tube 5 increased by about 15%. A noble gas in the open space 6 also prevents any corrosion on the metal pipe 4 and on the inner surface of the metallic tube 5 , For the metal pipe 4 Therefore, any metal can be used, such as steel.

The heat transfer between the metal tube 4 and the outer metallic tube 5 By radiation can be further improved by the fact that the outer surface of the metal tube 4 is roughened. This can be achieved with advantage by sandblasting. By such a measure, the heat transfer from the metal tube 4 to the outer metallic tube 5 be increased by radiation by about 25%, which leads to an additional improvement in the efficiency of this method.

Claims (8)

A method for operating a large-length electric heater assembly using a heating cable with at least one of a high temperature resistant insulation vice heating conductor, characterized in that - around the heating line ( 1 ) around the insulation ( 3 ) adjacent metal tube ( 4 ), that - with the metal tube ( 4 ) equipped heating cable ( 1 ) in a metallic tube ( 5 ) with a relative to the metal tube ( 4 ) larger diameter is introduced, which next to the heating line ( 1 ) an axially continuous space ( 6 ), and - that in the free space ( 6 ) is introduced a same completely filling, non-combustible gas with a lower air to kinematic viscosity, which is kept under constant pressure. A method according to claim 1, characterized in that a gas having a kinematic viscosity of at most 90 × 10 ^-6 m ² / sec at 500 ° C is used. Method according to claim 1 or 2, characterized the existence inert gas is pressed into the free space. Method according to claim 3, characterized that argon is pressed into the free space. Method according to one of claims 1 to 4, characterized that the Gas pressure monitored becomes. Method according to claim 5, characterized in that that the Gas pressure is controlled to a constant value. Method according to one of claims 1 to 6, characterized in that the gas from the far end via a tube ( 8th ), which on the metal tube ( 4 ) of the heating line ( 1 ) is attached. Method according to one of claims 1 to 7, characterized in that the outer surface of the metal tube ( 4 ) of the heating line ( 1 ) is roughened, preferably by sandblasting.