TH21515B - Methods and machines for stimulating a range of sedimentary strata - Google Patents

Abstract

DC60 (01/05/44) This invention provides a machine and a method for drilling porosity and the practice of Multiple ranges of basins form one or more underground layers that have been cut through by a channel. The well by means of a moving-out arrangement of a bottom-hole reconditioner ("BHA") equipped with drilling equipment. At least one pore and sealing mechanism enters the borehole.This BHA may be moved out of the sump by means of cables, pipes, or cables. Or enough to Choose that. This BHA may be deployed by means of a towing system that is attached directly to the BHA. This perforation device is used to drill holes for the first stage to be treated. In practice, this BHA is positioned within the borehole in such a way that the sealing mechanism, which, when stimulated. To work, a hydraulic seal is established in the sump to force the positive fluid into the porosity. These that correspond to this period one will be treated. Then the operating fluid will be pumped into The wells are drilled and entered into the pores that have been formed during this pitting. This sealing mechanism is disengaged and then repeated these steps for the required number of spans without conduction. This BHA came out of the borehole. This invention provides a machine and a method for drilling porosity and the practice of Multiple ranges of basins form one or more underground layers that have been cut through by a channel. The well by means of a moving-out arrangement of a bottom-hole reconditioner ("BHA") equipped with drilling equipment. At least one pore and sealing mechanism enters the borehole.This BHA may be moved out of the sump by means of cables, pipes, or cables. Or enough to Choose that. This BHA may be deployed by means of a towing system that is attached directly to the BHA. This perforation device is used to drill holes for the first stage to be treated. In practice, this BHA is positioned within the borehole in such a way that the sealing mechanism, which, when stimulated. To work, a hydraulic seal is established in the sump to force the positive fluid into the porosity. These that correspond to this period one will be treated. Then the operating fluid will be pumped into The wells are drilled and entered into the pores that have been formed during this pitting. This sealing mechanism is disengaged and then repeated these steps for the required number of spans without conduction. This BHA came out of the borehole.

Claims (8)

1.Methods for drilling pores and treating multi-spans of rock formations. Occurs one or more underground floors that have been cut through by boreholes. Which the above method will Include (a) the expeditionary arrangement of the bottom reconditioning assembly ("BHA") by means of The moving-out arrangement within the well-borehole. The BHA has a perforation device and a sealing mechanism (b) to position the BHA within the borehole. By the use of a depth control device (c) the use of the perforation device to penetrate the holes for the period (d) the actuation of the sealing mechanism in order to form a hydraulic seal. Click in the box (E) The pumping of the fluid is performed in the borehole. And enter into these pores that are formed Comes by such perforation device Without taking the perforation device out of the cavity The well, (f) disengaging the sealing mechanism, and (g) repeating the steps (b) to (f) for at least one additional span of the rock. One or more basins formed underground. 2. Method of claim No. 1, where the means of disposal are selected. It is derived from a group consisting of wire, slick and cable. 3. Method of claim No. 1, where the means of organizing such use is a hose. 4. Method of claim. Clause 3, where the said pipe line is a coiled pipe 5. Method of claim 3, where the said pipe line is a jointed pipe 6. Method of claim 3, Where the operating fluid is pumped into the said pipe through the flow channel in the BHA. 7. Method of claim 6, where the fluid provided to the practice is also pumped into the section. Ring between the pipes and pipes. 8. Method of claim No. 3, where the said operating fluid will be pumped into the section. Ring between the pipes and pipes. 9. Clause 1 Clause 1, where the sealing mechanism is a resettable packer 1 0. Clause 1's method, where Fluids make such a slurry of materials. Propant type And the carrying fluid 1 1. Method of claim 1, where the fluid acts as a liquid without proposition 1 2. The claim method 1, where Fluids treat such treatment as an acidic solution 1 3. Method of treatment Article 1, where the fluid treats such treatment as an organic solvent 1 4. Method of claim 1, where the instrument Drilling holes, such as guns for drilling holes. A selective-shot porosity containing multiple sets of explosive-type porosity. In a given direction, one or more parts Which each such set of bombs for drilling holes One or more of them explode in a given direction. And controlled especially by electrical or optical signals that are transmitted through a cable that is used in Borehole 1 5. Method of claim 1, where the aforementioned perforated device is to be stimulated. Work by pressure Hydraulics transmitted from the ground through the borehole 1 6. Method of claim 3, where the perforation device is stimulated. It is operated by hydraulic pressure transmitted from the ground through the pipe line 1 7. Method of claim 3, where the perforation device is also a cutting device. A fluid stream through which fluid is pumped into the pipeline to establish hydraulic contact. Between the said holes And during one or more such periods of underground rock formations One or more of the aforementioned class 1 8. Clause 1, where the said method is also included. Of the maneuvering of at least one of the deflection agents during the well To block further flow of the fluid, it is treated into the pores where this step is Procedures prior to the release of the said sealing mechanism 1 9. Method of claim 18, where such deflection agents are deployed in The well bores are selected from a group consisting of granules, gels, viscous fluids, foams and ball seals. 2 0. Activation system for use in porosity drilling. And practice for the range The number of strata of shale basins forming one or more underground basins that have been cut through by the borehole, which will include: (a) practical fluid, (b) disposition path at Choose from a group consisting of wire, slick, and cables within the borehole (c) optimized bottom reconditioning (BHA) assembly in order to obtain Arrange Move out to use in the borehole through the said removal method. Which such BHA will have At least one perforation device for sequential punching of the multiple spans and at least one sealing mechanism. Where such BHA will have the ability To be aligned within the borehole. To allow activation of the device The perforation of the said hole And such sealing mechanism (d) such sealing mechanism It has the ability to form a hydraulic seal in the borehole, and also has the ability to release the hydraulic seal to allow such BHA. It moves to a different position within the borehole, thus allowing for multiple operating ranges. Each session will be treated with a fluid that provides such a practice. 2 1. The actuation system for use in porosity drilling. And practice for the range Several ranges of rock basins form one or more underground layers. That has been cut through by the well, the system comprises: (a) a practical fluid (b) a organized evacuation path within the borehole. (C) A well-optimized bottom reconditioning assembly (BHA) to be aligned Move out to use in the borehole through the said removal method. Which the said BHA will At least one perforation device is available. For drilling holes sequentially to the range Many such periods And at least one sealing mechanism Where such BHA will have Able to be aligned within the aforementioned borehole to allow activation of the Such perforation equipment (D) The sealing mechanism, which has the ability to establish a hydraulic seal in the borehole, and also has the ability to release the seal. The hydraulic way to allow. The BHA moves to a different position within the borehole, thereby allowing each of these operating sessions to be treated with a fluid. 2 2. The system of claim No. 21, where the means of organizing them are pipelines. 2. 3. The system of claim No. 22, where the call The pump pipe is a coiled pipe. 2. 4. System of claim 22, where the pipe line is a joint pipe 2. 5. System of claim 21, where the perforation device. Such perforations are guns for punching holes. Highly selective porosity, which contains multiple sets of explosive-type mine clay. In a given direction, one or more parts Which each such set of bombs for drilling holes One or more of them explode in a given direction. And controlled especially by electrical or optical signals that are transmitted through a cable that is used in The borehole 2 6. System of Clause 21, where the said sealing mechanism will be encouraged. It is operated by hydraulic pressure emitted from the ground through ambilicol 2. 7. System of claim 21, where such perforation equipment is stimulated. It is operated by hydraulic pressure exiting from the ground through aerobic 2. 8. System of Clause 21, where the perforated perforation device is stimulated. It is operated by hydraulic pressure exiting from the ground through the borehole. 2. 9. System of claim 22, where the perforation device is stimulated. It is operated by hydraulic pressure exiting from the ground through the pipe lines 3 0. System of claim 22, where the perforated device is also a cutting device. A fluid stream through which fluid is pumped into the pipeline to establish hydraulic contact. Between the said holes And one or more periods of such basins were formed. One or more such underground floors 3 1. The system of claim 21, where the sealing mechanism is a resettable packer 3 2. The system of claim 21, where The fluid acts as a slurry of materials. Propant type And the carrier fluid 3 3. The system of claim Article 21, where the fluid acts as a proportional fluid 3 4. The system of claim Article 21, where the fluid provides This practice is an acid solution. 3. 5. System of claim 21, where the fluid provides such a practice as an organic solvent. Multiple ranges of layers A rock formation underground, one or more layers that have been cut through by a borehole. Which the machine will Include (a) bottom reconditioner assembly Which will have at least one perforation device For the sequential drilling of such multiple spans, at least one sealing mechanism and at least one towing device (b) such a towing device with a positioning capability of B. H.A. said that And (c) the sealing mechanism is capable of forming a hydraulic seal in the borehole, and also has further release capability. Seal the hydraulic way to allow. The BHA moves to different positions within the borehole, thus allowing each of the above operating sessions to be treated separately from the other. Remarks 3 7. The device of Clause 36, where the BHA is also incorporated. Determine the position of the casing ring of the casing. 3. 8. Instrument of Clause 36, where the sealing mechanism is a resettable packer. 3. 9. Device of Clause 36, where The perforating device is a gun for punching holes. Highly selective porosity, which contains multiple sets of explosive-type mine clay. In a given direction, one or more parts Each of these sets of explosive perforated explosive explosives in a specified direction at one or more sections is activated. And controlled in a particular part by the electrical signal transmitted 4 0. Device of Clause 36, where the perforation device will be stimulated. It works by hydraulic pressure exiting from the ground through the borehole. 4 1. Method of claim 1, where the BHA is repositioned. Before activating the sealing mechanism 4 2. Method of claim 1, where the apparatus used to control the depth is applied. Choose from a group consisting of a casing ring of the casing And measurement systems on the ground. 4. 3. Methods for drilling porosity and the practice of multiple spans of rock basins. Causing an amount or more of soil to be cut through the borehole Which the above method will Include (a) the release arrangement of the bottom reconditioning assembly ("BHA") using the A selected release arrangement from a group consisting of wire, slick and cable is located within the borehole. Which BH has a perforation device. (B) the use of a perforation device to punch holes in the range. (C) activation of the sealing mechanism in order to form a hydraulic seal. In the channel (D) The pumping of the fluid is performed in the borehole. And enter into these pores that are formed Is supplied by the perforation device without the removal of the perforation device from the cavity. The well (e) the removal of the sealing mechanism and (f) the repeat of the steps (b) to (e) for at least one additional span of the basins. 4 4. Method of claim 43, where the said BHA is assigned a new position. Inside the aforementioned borehole By making use of the tools used to control the depth that was chosen from the group. Consisting of a ring casing of the casing And the measurement system on the ground. 4. 5. Method of claim 43, where the perforation device is a gun for drilling holes. Prunes that can be shot selectively There are several sets of explosive mixtures for highly porous drilling. Explodes in a given direction, one or more parts Which each such set of gunpowder for Drill one or more parts of an explosive in a specified direction. It is individually activated and controlled by electrical signals. Or light transmitted through the moving cable Issued in this well 4 6. Clause 43 Method of Clause 43, where the sealing mechanism is a reconfigurable packer 4 7. Clause 43 Method of claim, Where the fluid treats it as a slurry of material. Propant type And the carrying fluid 4 8. Method of claim 43, where the fluid provides the practice of being a non-proported fluid 4. 9. Method of claim 43, where Fluids treat such treatment as an acidic solution. 5 0. Method of claim 43, where the fluid treats such practice as an organic solvent 5 1. Method of claim 43, where the The said process is also included in the process. Of displacement acts at least one divergence Issued in the said hole to block Prevent further flow of the fluid into action, where this is the first step. Page of release of the said sealing mechanism. 5. 2. Method of claim 51, where such deflection agents are deployed in The perforation cavity was selected from a group consisting of granules, gels, viscous fluids, foam and ball sealing elements. 5. 3. Method of claim 43, where the sealing mechanism is applied. It will be motivated to It works by the hydraulic pressure emitted from the ground through the ambulatory. 5. 4. Method of claim 43, where such perforation devices are stimulated. This is done by hydraulic pressure exiting from the ground through ambulatory. 5. Method of claim 43, where the perforation device is stimulated. Work by pressure Hydraulics supplied from the ground through the borehole. 5 6. Machine for use in drilling holes. And the practice of many ranges of rock strata The basins form one or more layers that have been cut through by the borehole. It includes (a) a well-optimized bottom reconditioning assembly (BHA) in order to be aligned. Moved out and used in the borehole With such a way of organizing and using Selected from that group Consists of wire, slick and cable, the BHA is equipped with a perforated device such as One minimum for sequential punching And, (b) such sealing mechanism which has the ability to form a hydraulic seal in the borehole, and also There is further ability to release such a hydraulic seal to allow The BHA moves to different positions within the borehole, thus allowing each of these operating sessions to be treated with a fluid. 5 7. Machine for use in punching holes. And the practice of many ranges of rock strata Basins form one or more layers That has been cut through by a well-drilled hole It includes (a) a well-optimized bottom reconditioning assembly (BHA) in order to be aligned. Move out to use in the borehole through the said removal method. And set the position In the aforementioned borehole by means of depth control The BHA has a perforation device. At least one unit for the sequential punching of the spans and at least one sealing mechanism (b) such a sealing mechanism capable of forming a hydraulic seal. It also has the ability to release the hydraulic seal to allow The BHA moves to a different position within the borehole, thereby allowing multiple operating sessions, each to be treated with a fluid. 5. 8. Clause 58. Apparatus of claim 57, where the means of organizing it is a pipe. 5. 9. Machine of claim 58, where The pipe line is a coiled cylinder 6 0. The engine of claim 58, where the pipe line is a joint cylinder 6 1. The device of claim 57, where the means of disposal will be Selected from a group consisting of wire, slick and cable 6. 2. Instrument of claim 57, where the sealing mechanism is a resettable packer 6. 3. Device of claim 57, where the perforation device is a punching gun. Highly selective porosity, which contains multiple sets of explosive-type mine clay. In a given direction, one or more parts Which each such set of bombs for drilling holes A porous, one or more parts explode in a given direction. Will be motivated to work And controlled in a particular part by the electrical signal transmitted Through the wires arranged to be used in this well 6 4. Device of claim 57, where the aforementioned perforated device shall be It is operated by hydraulic pressure exiting from the ground through the borehole 6. 5. Device of claim 58, where the aforementioned perforation device shall be It is operated by hydraulic pressure exiting from the ground through the pipes 6. 6. Machine of claim 58, where the perforation device is also a cutting device. A fluid stream through which the fluid is pumped into the pipeline to establish hydraulic contact. Between the said holes And one or more ranges of such basins were formed. One or more underground floors thereof 6 7. Method of claim 57, where the method for controlling such depth selected from the group containing the casing of the casing And ground measurement system 6 8. System of claim No. 21, where the method for controlling such depth is selected from the group consisting of the casing of the casing. And ground measurement system