Fuenmayor
Alexander Fuenmayor, Los Teques VE
Patent application number | Description | Published |
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20150194860 | MICROGENERATOR FOR HYDROCARBON PRODUCING SYSTEMS - A microgenerator for use in petroleum distribution systems includes a casing defining an interior portion and an exterior portion. The casing has an opposed first support wall and second support wall coupled within an inner diameter of a cylinder containment wall. At least one fluid inlet penetrates the cylinder containment wall. The fluid inlet is fluidly coupled to an energized fluid source. At least one nozzle is fluidly coupled to the fluid inlet. The nozzle is configured to accelerate the fluid into the interior portion. At least one fluid outlet penetrates the cylinder containment wall. The fluid outlet is configured to discharge the fluid from said interior portion of the casing. An impulse turbine is located within the interior portion. The turbine has a first stator coupled to the first support wall and a second stator coupled to the second support wall opposite the first stator. A rotor is rotatably mounted between the first stator and the second stator on a shaft at a central axis of the rotor. The rotor includes an array of turbine blades integral to the rotor at an outer perimeter of the rotor. The nozzle is aligned to direct the fluid against the array of turbine blades to rotate the rotor about the central axis. A set of permanent magnets are fixed into the rotor proximate the turbine blades between the perimeter and the shaft. At least one electromagnetic core and coil assembly is fixed into the first stator arranged in a periphery about the central axis and is electromagnetically coupled to the set of permanent magnets and is configured to generate an electric current in cooperation with the set of permanent magnets. | 07-09-2015 |
Andres Fuenmayor, Dubai AE
Patent application number | Description | Published |
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20120175108 | TEST PACKER AND METHOD FOR USE - A downhole tool having a throughbore is disclosed for use in a tubular located in a wellbore. The downhole tool has a sealing element configured to seal an annulus between the downhole tool and an inner wall of the tubular; at least one flow path formed in the downhole tool, wherein the flow path is configured to allow fluids in the annulus to flow past the sealing element when the sealing element is in a sealed position; and at least one valve in fluid communication with the flow path and configured to allow the fluids to flow through the flow path in a first direction while preventing the fluids from flowing through the flow path in a second direction. A guard may be installed proximate anchor elements. The guard extends radially beyond an outer diameter of the anchor elements when the anchor elements are in a retracted position. | 07-12-2012 |
20150013971 | TEST PACKER AND METHOD FOR USE - A downhole tool having a throughbore is disclosed for use in a tubular located in a wellbore. The downhole tool has a sealing element configured to seal an annulus between the downhole tool and an inner wall of the tubular; at least one flow path formed in the downhole tool, wherein the flow path is configured to allow fluids in the annulus to flow past the sealing element when the sealing element is in a sealed position; and at least one valve in fluid communication with the flow path and configured to allow the fluids to flow through the flow path in a first direction while preventing the fluids from flowing through the flow path in a second direction. A guard may be installed proximate anchor elements. The guard extends radially beyond an outer diameter of the anchor elements when the anchor elements are in a retracted position. | 01-15-2015 |
Daniel De Fuenmayor, Paris FR
Patent application number | Description | Published |
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20090027421 | Computer system with a zooming capability and method - The computer system with zoom capability includes a floating zoom button which follows a cursor or may be navigated by a stylus or a finger tip across the display screen of the computer system. The floating zoom button includes a floating zoom “+” button and a floating zoom “−” button where the “+” button locates itself by default under the cursor and a zoom-in function is activated if the user interactive input device is actuated. A computer mouse, a pointing device, a stylus, or a finger tip may be used as the user interactive input arrangement. The cursor may move within the floating zoom button area provided to allow displacement of the cursor between the “+” and “−” buttons without displacement of the location of the floating zoom button. In this manner, the user may opt for the “−” button which represents a zoom-out with a minimization of any effort. By actuating the user interactive input device while the cursor points to the “−” button, a zoom-out action is performed on the display area provided within the floating zoom button area. | 01-29-2009 |
Mkac Fuenmayor, Calgary CA
Patent application number | Description | Published |
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20120145415 | EMERGING TECHNOLOGIES FOR OPTIMIZING RECOVERY FROM HEAVY CRUDE DEPOSITS - A method for extracting hydrocarbons from an underground reservoir that includes initiating a combustion reaction inside a reservoir by injecting oxidizing gas through a set of pipes arranged inside the injection well, thereby generating a combustion front, the path of which first meets an end of a horizontal portion of a production well and, subsequently, the other end of the same; and using an assembly of pipes located inside the production well to extract from inside the reservoir the hydrocarbons entering the horizontal portion. | 06-14-2012 |
20130206384 | SYNCHRONISED SYSTEM FOR THE PRODUCTION OF CRUDE OIL BY MEANS OF IN-SITU COMBUSTION - A synchronized crude oil production system using in-situ combustion that measures, monitors, and controls the operating conditions in real time. The system includes at least one injection well, at least one production well, and at least one inclined synchronization well. The end of the production well(s) and the end of the inclined synchronization well(s) within the reservoir are oriented outward the injection well and the wells include measurement, monitoring, and control elements. The measurement and monitoring elements transmit signals and data collected to one or more processing units which, together or independently, use an analytical model to assess the combustion conditions in the well-subsurface system and the forward move of the combustion front and, depending on the results, synchronize the production operations. Each well being operated and handled remotely at the control valves thereof in order to influence the displacement direction of the combustion front. | 08-15-2013 |