公开(公告)号：US20070221407A1

公开(公告)日：2007-09-27

申请号：US11751395

申请日：2007-05-21

申请人： F.X. Bostick ,  David Hosie ,  Michael Grayson ,  R.K. Bansal

发明人： F.X. Bostick ,  David Hosie ,  Michael Grayson ,  R.K. Bansal

IPC分类号： E21B47/14

CPC分类号： E21B47/06 ,  E21B21/08 ,  E21B34/06 ,  E21B34/101 ,  E21B47/10 ,  E21B47/122 ,  E21B47/123 ,  E21B47/14 ,  E21B2021/006 ,  E21B2034/005 ,  G01V1/40

摘要： The present invention involves methods and apparatus for permanent downhole deployment of optical sensors. Specifically, optical sensors may be permanently deployed within a wellbore using a casing string. In one aspect, one or more optical sensors are disposed on, in, or within the casing string. The optical sensors may be attached to an outer surface of the casing string or to an inner surface of the casing string, as well as embedded within a wall of the casing string. The optical sensors are capable of measuring wellbore parameters during wellbore operations, including completion, production, and intervention operations.

摘要翻译： 本发明涉及用于光学传感器的永久井下部署的方法和装置。 具体来说，光学传感器可以使用套管柱永久地部署在井筒内。 在一个方面，一个或多个光学传感器被布置在套管柱的内部，内部或内部。 光学传感器可以附接到套管柱的外表面或者连接到套管柱的内表面，并且嵌入在套管柱的壁内。 光学传感器能够测量井眼操作期间的井眼参数，包括完井，生产和干预操作。

公开(公告)号：US20220311264A1

公开(公告)日：2022-09-29

申请号：US17210654

申请日：2021-03-24

申请人： Michael Grayson

发明人： Michael Grayson

IPC分类号： H02J7/14 ,  H02K7/18 ,  H02K11/00 ,  B60L8/00 ,  B60L53/00 ,  F03D9/32

摘要： A fluid dynamic kinetic energy-based frictionless type generator of a range extender and recharger for an electric vehicle or device and the production of electricity is characterized by converting fluid motion into electric energy. This device uses the drag force acting opposite to the relative motion of objects moving with respect to a surrounding fluid. This force can exist between two fluid layers or a fluid and a solid surface. The device comprises a cylinder covered with paddles, air ducting ramp, permanent magnets, armature winding, charge controller and battery bank. It's a frictionless, high efficiency, brushless generator design that utilizes kinetic energy produced by drag, pressure, friction, fluid resistance, fluid dynamics, aerodynamics, wind, and or motion together with the device itself to create a frictionless brushless generator that will deliver power to the engine directly, the enclosed battery bank or can be diverted to the vehicle battery bank for recharging.

公开(公告)号：US20210274880A1

公开(公告)日：2021-09-09

申请号：US16810037

申请日：2020-03-05

申请人： Michael Grayson

发明人： Michael Grayson

IPC分类号： A43B7/22 ,  A43B3/00 ,  A43B7/14 ,  A43B13/40 ,  A43B13/38 ,  A43B5/06

摘要： An assembly for a shoe or other footwear comprising computer controlled individually configurable inflatable air bladder orthotic structures that are monitored by a flexible pressure sensor pad. Comprising of a plurality of regions, each region including a respective plurality of air bladders; each respective air bladder being individually feed by a separate tube; each tube having a self-sealing valve disposed thereon and configured to allow air to enter the bladder through the valve while maintaining air pressure within the air bladder; and each self-sealing tube valve configured to allow air to escape through the valve via a computer controlled mini compressor integrated pump and release valve device. Where the air bladders are feed air through a mini smart compressor, which additionally can be controlled by a smart phone or computer. Said smart compressor connects with the shoe assembly at the heel pad plug in. The heel pad plug in comprising individual hoses and valves to fill and empty bladders and a power cord for recharging the shoe battery.

公开(公告)号：US20210265895A1

公开(公告)日：2021-08-26

申请号：US16801505

申请日：2020-02-26

申请人： Michael Grayson

发明人： Michael Grayson

IPC分类号： H02K7/18 ,  B60L53/50 ,  B60L50/90 ,  B60L53/60 ,  H02K11/00 ,  H02J7/00

摘要： A wheel-based generator of a range extender and recharger for an electric vehicle is characterized by comprising an armature winding, wheel cover, wheel well, tire, permanent magnets, spokes, charge controller and battery bank. This is a frictionless, high efficiency, brushless generator design that utilizes the wheel well and or wheel cover, together with the mechanical energy of the tire itself to create a frictionless brushless generator that will deliver power to the engine directly or can be diverted to the battery bank for recharging.

公开(公告)号：US20050045337A1

公开(公告)日：2005-03-03

申请号：US10911223

申请日：2004-08-04

申请人： R.K. Bansal ,  David Brunnert ,  Michael Grayson ,  James Whanger ,  Evan Lowe ,  Abdolreza Gharesi ,  Tim Hanberry

发明人： R.K. Bansal ,  David Brunnert ,  Michael Grayson ,  James Whanger ,  Evan Lowe ,  Abdolreza Gharesi ,  Tim Hanberry

IPC分类号： E21B20060101 ,  E21B21/00 ,  E21B21/06 ,  E21B21/08 ,  E21B36/00 ,  E21B43/24

CPC分类号： E21B21/08 ,  E21B36/006 ,  E21B43/10 ,  E21B2021/006

摘要： Methods for forming a portion of a wellbore are provided. The well is drilled from a first selected depth to a second selected depth to form a bore through a surrounding earth formation. A fluid heating apparatus is disposed within the bore on a working string. Fluid is then heated by moving the fluid through the fluid heating apparatus in the wellbore. The process of circulating fluid adjacent the earth formation serves to also heat the surrounding formation so as to increase the fracture gradient. The fluid heating process may be conducted during a drilling procedure. Alternatively, the fluid heating process may be conducted in connection with a liner hanging and cementing process. A fluid flow restrictor is provided along a run-in assembly that serves to warm the fluids as they are circulated. The warm fluids provide convective heat to the surrounding earth formation, thereby reducing the formation's fracture gradient.

摘要翻译： 提供了形成井筒部分的方法。 井从第一选定深度钻到第二选定深度，以形成穿过周围地层的孔。 流体加热装置设置在工作柱内的孔内。 然后通过将流体移动通过井眼中的流体加热装置来加热流体。 围绕地层循环流体的过程还用于加热周围地层，以增加断裂梯度。 流体加热过程可以在钻井过程中进行。 或者，流体加热过程可以与衬管悬挂和固井过程相关地进行。 流体流量限制器沿着流入组件提供，用于在流体循环时使流体温暖。 温暖的流体为周围的地层提供对流热，从而减少地层的断裂梯度。

公开(公告)号：US20070205000A1

公开(公告)日：2007-09-06

申请号：US11743808

申请日：2007-05-03

申请人： David Hosie ,  Michael Grayson ,  R.K. Bansal ,  F.X. Bostick

发明人： David Hosie ,  Michael Grayson ,  R.K. Bansal ,  F.X. Bostick

IPC分类号： E21B34/10

CPC分类号： E21B21/08 ,  E21B34/06 ,  E21B34/101 ,  E21B47/10 ,  E21B47/122 ,  E21B2021/006 ,  E21B2034/005

摘要： The present generally relates to apparatus and methods for instrumentation associated with a downhole deployment valve or a separate instrumentation sub. In one aspect, a DDV in a casing string is closed in order to isolate an upper section of a wellbore from a lower section. Thereafter, a pressure differential above and below the closed valve is measured by downhole instrumentation to facilitate the opening of the valve. In another aspect, the instrumentation in the DDV includes sensors placed above and below a flapper portion of the valve. The pressure differential is communicated to the surface of the well for use in determining what amount of pressurization is needed in the upper portion to safely and effectively open the valve. Additionally, instrumentation associated with the DDV can include pressure, temperature, seismic, acoustic, and proximity sensors to facilitate the use of not only the DDV but also telemetry tools.

摘要翻译： 本发明一般涉及与井下展开阀或单独的仪器仪表相关联的仪器的装置和方法。 在一个方面，套管柱中的DDV被封闭以便将井眼的上部与下部区隔开。 此后，通过井下仪器测量关闭阀上方和下方的压力差，以便阀的打开。 另一方面，DDV中的仪器包括位于阀的挡板部分上方和下方的传感器。 压力差传递到井的表面，用于确定在上部需要多少加压以安全且有效地打开阀。 此外，与DDV相关的仪器可以包括压力，温度，地震，声学和接近传感器，以便于不仅使用DDV，而且还可以使用遥测工具。