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公开(公告)号:US20170304926A1
公开(公告)日:2017-10-26
申请号:US15496606
申请日:2017-04-25
Inventor: Raymond C. Zowarka , Ben Rech , Joe Koo , Jon Hahne , David N. Prater , Charles E. Penney , Bryan Bunkowski , Siddharth Pratap
IPC: B23K11/24 , H02K5/16 , H02K5/14 , B23K11/02 , F16C19/18 , B23K11/00 , F16C27/04 , H02K31/02 , F16C33/32 , B23K101/28
CPC classification number: B23K11/241 , B23K11/002 , B23K11/02 , B23K31/02 , B23K31/027 , B23K2101/06 , B23K2101/28 , B23K2101/36 , B23K2103/04 , F16C19/184 , F16C19/543 , F16C27/04 , F16C33/32 , F16C33/62 , F16C2206/40 , F16C2380/26 , H02K5/14 , H02K5/165 , H02K31/02
Abstract: Described herein are methods and system for welding, for example, girders. The method may include activating a homopolar generator. The method may include applying a force to two metal girders at a desired coupling joint. The method may include generating an electrical pulse using the homopolar generator and conducting the electrical pulse to the desired coupling joint to increase a temperature of the girders. The method may include forming a weld at the desired coupling joint attaching the two metal girders at the desired coupling joint. In some embodiments, the homopolar generator may include a radial bearing rotor including a rotatable shaft and a bearing assembly. The bearing assembly may include nonmagnetic bearings. The homopolar generator may include a field coil. The homopolar generator may include a brush actuation mechanism which when activated engages a plurality of brush devices to the radial bearing rotor.
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公开(公告)号:US10125589B2
公开(公告)日:2018-11-13
申请号:US15606266
申请日:2017-05-26
Inventor: Raymond C. Zowarka , Mukul M. Sharma , Michael D. Werst , Clay Hearn , Michael Worthington , Jon Hahne , Hsing-Pang Liu , Bryan Bunkowski , Siddharth Pratap
Abstract: Described herein are methods and system that use electromagnetic heating to heat wellbores and the fluids therein. The heating is achieved by placing one or more permanent magnets in the wellbore and moving a metallic component and/or the one or more permanent magnets relative to each other. This generates eddy currents in the metallic component, which heat the metallic component. This heat is transferred to the fluids in the wellbore from the metallic component by convection. In some embodiments, permanent magnets are installed in the tubing to induce eddy current heating in a well by converting the linear motion of a sucker rod to rotary motion of a conducting tube using a lead or ball screw. The heater may directly integrate with existing pump jack equipment with little or no additional infrastructure required.
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公开(公告)号:US20170362923A1
公开(公告)日:2017-12-21
申请号:US15606266
申请日:2017-05-26
Inventor: Raymond C. Zowarka , Mukul M. Sharma , Michael D. Werst , Clay Hearn , Michael Worthington , Jon Hahne , Hsing-Pang Liu , Bryan Bunkowski , Siddharth Pratap
CPC classification number: E21B43/2401 , E21B36/04 , E21B43/127 , F16H2025/2028 , F16L53/34 , H05B6/10
Abstract: Described herein are methods and system that use electromagnetic heating to heat wellbores and the fluids therein. The heating is achieved by placing one or more permanent magnets in the wellbore and moving a metallic component and/or the one or more permanent magnets relative to each other. This generates eddy currents in the metallic component, which heat the metallic component. This heat is transferred to the fluids in the wellbore from the metallic component by convection. In some embodiments, permanent magnets are installed in the tubing to induce eddy current heating in a well by converting the linear motion of a sucker rod to rotary motion of a conducting tube using a lead or ball screw. The heater may directly integrate with existing pump jack equipment with little or no additional infrastructure required.
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