A magnetically impelled arc butt (MIAB) welding device heats facing ends of a pair of wellbore tubulars and a force application device compressively engages the facing ends to form a welded joint. The device may be positioned on the rig floor. The MIAB welding device may include a device configured
A magnetically impelled arc butt (MIAB) welding device heats facing ends of a pair of wellbore tubulars and a force application device compressively engages the facing ends to form a welded joint. The device may be positioned on the rig floor. The MIAB welding device may include a device configured to hold facing ends of the two wellbore tubulars at a specified distance away from one another, a high frequency arc ignition device configured to generate an arc between the facing ends and to revolve the arc around the circumference of the facing ends, and a magnetic field generator configured to superimpose a magnetic field at the facing ends. The MIAB welding device may be configured to melt at least a surface of the facing ends.
대표청구항▼
1. An apparatus for connecting wellbore tubulars at a rig floor, comprising: a magnetically impelled arc butt (MIAB) welding device positioned on the rig floor, the MIAB welding device including: (i) a high frequency arc ignition device having a power unit generating an arc between facing ends of tw
1. An apparatus for connecting wellbore tubulars at a rig floor, comprising: a magnetically impelled arc butt (MIAB) welding device positioned on the rig floor, the MIAB welding device including: (i) a high frequency arc ignition device having a power unit generating an arc between facing ends of two wellbore tubulars, wherein the high frequency arc ignition device generates sparks on the order of thousands of volts that last on the order of microseconds,(ii) a magnetic field generator disposed around the facing ends and superimposing a magnetic field at the facing ends, the magnetic field generator having at least one magnet interacting with the arc, and(iii) process control circuitry programmed to control welding of the facing ends, anda force applicator compressively engaging the facing ends to form a welded joint; anda feeding device holding the facing ends of the two wellbore tubulars at a specified distance away from one another, the feeding device including a mandrel and a gripper engaging at least one of the two wellbore tubulars. 2. The apparatus of claim 1, wherein the MIAB welding device is configured to melt at least a surface of the facing ends. 3. The apparatus of claim 1, further comprising a solenoid power source configured to increase the rotational speed of the arc. 4. The apparatus of claim 1, wherein the wellbore tubulars are selected from one of: (i) a casing, (ii) a liner, (iii) a rigid tubular, and (iv) a non-rigid tubular. 5. The apparatus of claim 1, wherein the tubulars have a non-circular shape. 6. The apparatus of claim 1, further comprising a handling device configured to convey the welded wellbore tubulars into a wellbore. 7. The apparatus of claim 1, wherein the magnetic field generator includes at least one of: (i) a naturally magnetic material, (ii) an engineered magnet, (iii) a permanent magnet, and (iv) an electromagnet. 8. The apparatus of claim 1 further comprising a sealing device having a first bore seal and a second bore seal, each bore seal sealing a bore of an associated wellbore tubular, the first bore seal isolating the facing end of the associated wellbore tubular from a borehole fluid, the second bore seal isolating the facing end of the associated wellbore tubular from an atmosphere at the associated wellbore tubular. 9. The apparatus of claim 1 further comprising a frame positioned at the rig floor, the frame having a process chamber, wherein the MIAB welding device welds the facing ends in the process chamber. 10. A method for connecting tubulars, comprising: positioning a magnetically impelled arc butt (MIAB) welding device on a rig floor, the MIAB welding device including (i) a high frequency arc ignition device having a power unit generating an arc between facing ends of two tubulars, wherein the high frequency arc ignition device generates sparks on the order of thousands of volts that last on the order of microseconds, (ii) a magnetic field generator disposed around the facing ends and superimposing a magnetic field at the facing ends, the magnetic field generator having at least one magnet interacting with the arc, and (iii) process control circuitry programmed to control welding of the facing ends;holding the facing ends of the two wellbore tubulars at a specified distance away from one another using a feeding device, the feeding device including a mandrel and a gripper engaging at least one of the two wellbore tubulars;heating facing ends of the two wellbore tubulars using the MIAB welding device; andcompressively engaging the facing ends using a force application device. 11. The method of claim 10, wherein the heating melts at least a surface of the facing ends. 12. The method of claim 10, further comprising at least periodically changing a radial position of the arc. 13. The method of claim 10, further comprising oscillating a radial position of the arc. 14. The method of claim 10, wherein the magnetic field is generated by using a solenoid.
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이 특허에 인용된 특허 (8)
Anderson, Mark Wilson; Den Boer, Johannis Josephus; Cole, Anthony Thomas; Dimitriadis, Klisthenis; Vollebregt, Jan Erik; Zijsling, Djurre Hans, Forge welding tubulars.
Kuchuk-Yatsenko Sergei I. (ulitsa P. Osipenko ; 17 ; kv. 18 Kiev SUX) Ignatenko Vadim J. (Ulitsa Boichenko ; 13 ; kv. 45 Kiev SUX) Genis Igor A. (ulitsa Nischinskogo ; 5 ; kv. 39 Kiev SUX) Jumatov Vi, Method for pressure welding of parts heated with an arc moving in magnetic field.
Rudd Wallace C. (New Canaan CT) Udall Humfrey N. (Darien CT), Methods and apparatus for heating metal parts with magnetically driven travelling electric arc.
Duncan John R. (Tarzana NY) Rohrberg Roderick G. (Torrance NY) Moyer Ross A. (Lafayette NY) Wright ; Sr. William E. (E. Syracuse NY), Pulsed direct current arc welding.
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