DE3021558A1 - Borehole tube string installation - using barrier discs for temporary retention of float fillings - Google Patents

Abstract

Wells and boreholes which are at least partly filled with a liquid, e.g. the drainage boreholes in open cast mining operations, are equipped with a string of sectional dewatering tubes. At least a part of the sections is filled with floats which are retained during the lowering operation by barriers. After completion of the outfit, the barriers are removed so that the floats, preferably hollow plastic elements, can rise and be recovered. This reduces the load on the lifting tackle during the lowering operations. The floats are inexpensive and are recovered.

Description

Method for casing drilling fluid-filled

holes or the like. Using individual pipe sections Die The invention relates to a method for piping at least parts of its longitudinal extension with liquid-filled boreholes or the like. Using individual, interconnectable pipe sections, in which the pipe string at least Parts of its area in the liquid under the action of Bodies that are lighter than the volume of fluid they displace as well as floating bodies and barriers that can be used to carry out the process.

DE-AS 1 231 190 discloses in connection with such a Process the difficulties encountered in the installation of pipe strings. The essential Problems arise from the fact that in the course of installing the pipe sections the weight of the pipe string increases continuously. This leads to a accordingly increasing load on the built-in device, which until the completion of the piping has to absorb the weight of the same. The resulting difficulties decrease with increasing depth of the boreholes and thus the length of the casing to. Difficulties also arise from the fact that during the installation the in the upper Area of the piping located pipe sections itself by the weight of the them hanging part of the pipe string are loaded. The resulting Tensile stress of the individual pipe sections can at least with certain materials, such as asbestos cement, slightly exceed the permissible level. this applies especially when, as is the case, for example, with filter tubes is, the wall of certain pipe sections through openings made in them is weakened. In addition, the connections between the individual pipe sections by the weight of the respective section of the piping hanging on them Mass claimed.

As an example of boreholes of the type in question here Drainage wells, as they are common in lignite opencast mining, called. Such Wells already reach depths of 500 m today, and up to 700 m in the next few years m.

In the method known from DE-AS 11 31 190 is the Casing of the borehole forming pipe string before installation in whole or in part its area located in the liquid on the outside with lightweight material, preferably Foam, provided, which has a low specific weight, so that the Volume of the entire pipe string and thus also the volume of the displaced liquid can be enlarged considerably. Since the lightweight material is only light, this leads to a noticeable reduction in the number of pipe sections on the built-in device and tensile stresses acting on the connections.

A major disadvantage of the known method is that that the lightweight material used as a floating body after completion of the installation process remains in the borehole, i.e. is not recoverable. This creates considerable Additional costs, especially in view of the fact that with increasing depth the amount of lightweight material required increases with the boreholes. Come in addition, that when a certain depth is exceeded the strength of the normally used Polystyrene foam no longer in view of the pressure of the liquid column sufficient. There is indeed the possibility of, for example, glass fiber reinforced To use plastic, reducing the expenses for the relief of built-in appliances, Pipe wall and connection would be even larger. It is also possible to attach it of the foam on the upper part of the pipe string, for example the upper one Half, because of the problems caused by the weight of the tubing string occur only with increasing length of the same. However, this does not change anything There is a tendency that with increasing depth of the well the difficulties and expenses also increase, possibly even disproportionately.

The invention is therefore based on the object of a method de? Modify the type described in the introduction so that the disadvantages of known methods be avoided. In particular, it should be possible to reduce the effective Regain weight of the pipe string causing body. The body should in their production and manageability, especially with regard to their introduction and recoverability, be simple and cheap. Ease of use should also take into account the normal operating conditions at the point carry, at which a well or the like. Is brought down.

To solve this problem, the invention proposes that at least part of the interior of at least part of the tubular sections with floating bodies filled and the latter receiving area of the pipe section on the top with a Provide a removable lock preventing the passage of the floats upwards which is subsequently eliminated.

The hollow body expediently made of plastic can be used without Difficulties, especially without any significant amount of work, be introduced into the respective pipe section. It depends on the Number of hollow bodies per pipe section also the extent of the reduction in the effective Weight calculable. It is also possible to use all or a certain number of to provide these hollow bodies to successive pipe sections, each pipe section would then have to be provided with a lock. on the other hand it may also be sufficient to only use the hollow bodies in every second or third pipe section and, if necessary, to increase the number of them. Here it must be taken into account that with a diameter of a pipe of, for example 1 m of the section of the interior of the pipe section to be filled by the float anyway only a small part of the length will take it, if it is a pipe made of asbestos cement or plastic, for example.

The hollow bodies, which advantageously have a spherical shape, can be different Have volume or diameter. Depending on the pipe diameter, the diameter can the hollow body are, for example, between 20 mm and 200 mm.

The removal of the locks is generally carried out after the Pipe string in the well, borehole or the like. Be carried out. This may be the case when the pipe string is seated on the bottom of the borehole or the like. It is but also possible to remove the lock only when, as in particular in the case of wells, the space between the wall of the borehole and the outer circumferential surface of the pipe string is filled with suitable material, for example gravel. A Removing the lock has the consequence that the hollow bodies located in the pipe sections float up and removed in a suitable manner at the top of the liquid column will. When the column of liquid within the pipe string up to the surface of the day is pending, the recovery of the hollow body is particularly easy.

An embodiment has proven to be particularly useful, in which the barriers are made of relatively brittle material, for example asbestos cement, exist. The plates - or floor-shaped barriers - can be at the connection points be attached between two adjacent pipe sections when installing the same, after in the pipe sections below the floats had been brought in. There is then after completion of the piping Possibility of locking by inserting a weight over a short distance dropped on the locks, destroying the ones underneath Hollow bodies can float. In addition, those with predetermined breaking points can also be advantageous provided barriers be provided with floating bodies, which give a guarantee that that after destruction, the resulting parts also float. Instead of Asbestos cement can also be parts made of appropriately adjusted plastic, synthetic resin or the like. Can be used.

In all possible applications of the invention, it is true that in each Case easy handling is guaranteed. In contrast to the procedure according to DE-AS 12 31 190 there is no need to put foam on the outside of the pipe sections to apply, if necessary

adapt and fasten. Furthermore, when applying the invention filter tubes also experience a reduction in their effective weight. This is in the known case not possible, because otherwise those located in the filter tubes Breakthroughs would be covered by the foam. Regarding the attachment the locking does not require great accuracy, as it only depends on Avoid passages that are so large that a hollow body with the here in Question coming diameter could happen. So it is also possible to lock to train sieve or net-like. It is only decisive that the locks against which the floats are placed from below, are capable of the Floats transferred to them Take up lift forces and transfer it to the pipe string.

Because the weight of a pipe section with associated connecting parts will generally be fixed within narrow limits, it is especially at Use of floats with different diameters usually without further possible to dimension the buoyancy forces of the hollow body so that they are in to the exact desired extent including the weight of one or more pipe sections Counteracting connecting parts and the like, so that the result is the tensile load the pipe and the connections as well as the built-in device can be determined in advance and are adjustable. If the specific gravity of the well, borehole or Like. Liquid located should also be taken into account, this could be under Use of simple means can easily be determined on a case-by-case basis.

An exemplary embodiment of the invention is shown in the drawing. The figures show: FIG. 1 in the schematic a longitudinal section through a well bore with therein built-in piping, FIG. 2 shows a longitudinal section through the connection of two pipe sections on a larger scale, Fig. 3 is a plan view of a lock, Fig. 4 is a longitudinal section by a second embodiment, FIG. 5 the associated top view.

Borehole 11 of FIG. 1 is filled with water. After its completion it is provided with piping 14 using a built-in device 12, which consists of solid-wall tubes 15 and 16 filter tubes. The arrangement is like this taken that between two filter tubes 16 there are three full-wall tubes 15 are located. The connection between the individual pipe sections 15 and 16 takes place in a known manner each via a sleeve 17.

Both the socket 17 and the pipes 15 and 16 are provided with grooves 18 and

19 (Fig. 2) provided, each jointly a circumferential channel form. A metal cable 20 is inserted into this as a connecting element, which can be embedded in rubber elastic material. In this way, the individual Pipe sections 15 and 16 connected to one another in a tensile manner. The type of connection is especially for pipes made of non-metallic material such as asbestos cement and plastic suitable.

In particular, FIG. 2 shows that at the connection point between two adjacent pipe sections 15 and 16 a cross section of the piping penetrating lock in the form of a disc 22 is used. These made from asbestos cement or another, suitable material existing disc is on the top and bottom provided with two notches 24, 26 arranged crosswise. When installing each Pipe sections are in each pipe, for example, twelve balls with a diameter of 200 mm given in Fig. 2 of the drawing for the sake of simplicity than in a vertical plane are shown lying so that the pipe section has an inner diameter of 800 mm. When establishing the connection with the one above, next pipe the open cross-section through the disc, the intermediate floor or the like. 22 is covered or at least reduced in size to such an extent that one or more of the balls 28 can no longer pass the connection point. This has the consequence that, as soon as the pipe section having the balls 28 with Liquid is filled, these balls float until they hit the intermediate floor or the like. In this way, due to the buoyancy of the balls 28 a force counter to the weight of the pipe string effective, which leads to a corresponding reduction in effective weight and thus the resulting reduction Stresses the parts subjected to this weight. Every pipe shot 15 or 16 can with these balls and the associated, serving as a lock disc 22 be provided. It is also possible to provide this only for individual pipe sections.

After completing the installation and fixing the piping 14 then the panes or intermediate floors 22 are removed by 30 that a for example Weight hanging on a rope on the uppermost disc 22 is dropped with the result that the disc is destroyed and the passage releases for the balls 28, which thus float up to the upper end of the tubing 14 can. The individual areas of the disk or the like acting as a barrier 22 can also, for example, attached by gluing, balls or other shaped also have floats 32, the buoyancy of which is sufficient to remove the individual parts of the Lock 20 on float.

In the exemplary embodiment according to FIGS. 4 and 5, the balls 128 are combined into packets 134, each of which consists of several layers of balls 128. Circular plates 136 are arranged between the individual layers, their diameter is slightly smaller than the inside diameter of the tube 115. Balls 128 and plates 136 are provided with openings 138 and 140, through which cables 142 pass by means of which the packages 134 are held together. With breakthroughs Balls provided with 138 are commercially available, for example, as float balls. Plates 134 and ropes 142 should be made of a material whose specific Weight is less than 1. Examples are polyethylene or other plastic.

When installing the pipe string, the package 134 can without difficulty be lowered into the respective upper pipe section 115.

The lock to be applied afterwards can consist of a simple tape, a Rope or the like. 144 exist, which later with a suitable device, for example a rotating knife. Again, it is possible to use the lock to be attached between the two mutually facing ends of two adjacent tubes 115. In the embodiment shown in FIGS. 4 and 5, the band 144 is on the Wall of the tube 115 attached. This can be done in a simple manner, e.g. B. by gluing happen.

The floating of the packets 134 takes place more calmly than with individual balls.

The same effect can also be achieved in that the balls be placed in a network, the diameter of which in the expanded state is not greater or is slightly smaller than the inner diameter of the tube 115.

Depending on the depth of the well, it may be useful to use adapted hollow bodies for certain devil areas. It goes it is essentially a question of the hollow body according to the prevailing depth in the respective depth To train fluid pressure. It is of course possible to use all hollow bodies from to be adapted from the outset to the greatest possible depth with regard to their dimensional stability. However, this would mean a loss of buoyancy. So with a full-wall pipe made of asbestos cement of 5 m length including coupling and barrier for generation a buoyancy of 7.75 KN about 240 spheres with an outer diameter of 200 mm is required if these balls are placed on a strength that a water pressure at a depth of 300 m. Under the same conditions there would be a depth 300 spheres of 1000 m cause a buoyancy of the same order of magnitude.

The increase in the number of balls with a simultaneous decrease the buoyancy is due to the fact that the balls - or possibly different shaped hollow bodies - thick-walled and therefore heavier.

In any case, however, when applying the teaching according to Invention a substantial simplification of the installation of pipe strings can be achieved can. Generally it will be for cost reasons to be preferable the buoyancy caused by the hollow bodies and thus the number of hollow bodies set so that the remaining effective weight of the piping is the highest possible The tensile load at the weakest point of the overall system is equivalent to or slightly remains below. On the other hand, the invention also gives the possibility there, where, for example, asbestos-cement pipes are used, pipes made of one material to use, which has more favorable properties in certain respects, however has a greater weight. Here the invention could increase the weight compared to the Compensate the usual lines used for well piping, so that despite the greater weight the previously used built-in devices, connecting elements and Like. Can be used.

The method according to the invention does not complicate the Installation of a pipe string in a well, a borehole or the like. Dar. The method can therefore be used without restriction.

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Claims (14)

Claims 1. A method for piping at least parts their longitudinal extension with liquid-filled wells, boreholes or the like. using individual pipe sections that can be connected to one another, in which the pipe string at least on parts of its area located in the liquid is under the influence of bodies that are lighter than what they displace Liquid volume, characterized in that at least part of the interior at least some of the pipe sections filled with loose floating bodies and the the latter receiving area of the pipe section on the top with a passage the float is provided with an upwardly preventing, removable lock that is subsequently eliminated. 2. The method according to claim 1, characterized in that for for the floating bodies are preferably used made of plastic hollow bodies. 3. The method according to claim 1 or 2, characterized in that the locks are removed one after the other after the installation has been completed. 4. The method according to any one of the preceding claims, characterized in that that the destruction of the locks by one embedded in the pipeline Weight is carried out. 5. Float for performing the method according to one of the preceding Claims, characterized in that they have different volumes or diameters exhibit. 6. Float for performing the method according to one of the preceding Claims, characterized in that they have the same volume or diameter. 7. Floating body according to claim 5 or 6, characterized in that the outer diameter of the spherical dhwim body (28) between 200 and 20 mm lies. 8. Floating body according to one of claims 5 to 7, characterized in that that they are combined into packages (134), the diameter of which is not greater, is preferably slightly smaller than the smallest inner diameter of the pipe sections (115). 9. Floating body according to claim 8, characterized in that it are arranged in layers between preferably plate-shaped holders (136). 10. Block to carry out the procedure according to one of the preceding Claims 1 to 4, characterized in that it is provided with at least one predetermined breaking point (24, 26) is provided. 11. Block to carry out the procedure according to one of the preceding Claims 1 to 4, characterized in that they are preferably made of asbestos cement or plastic existing floors (22) is formed. 12. Lock according to claim 11, characterized in that it or the individual areas of the lock limited by the predetermined breaking point (24, 26) a buoyancy effecting floating bodies (32) are provided. 13. Lock according to one of claims 10 to 12, characterized in that that they are in the area of the connection between two adjacent pipe sections (15, 16) is attached. 14. Block to carry out the procedure according to one of the preceding Claims 1 - 4, characterized in that they are made of at least rope or tape (144) exists.