Belgrave
Akeisha Belgrave, Plainville, CT US
Patent application number | Description | Published |
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20120305802 | Nanoparticles and Methods of Generating Coherent Emission Therefrom - Nanoparticles with a metal or metallic core and an outer shell comprising a matrix and a dopant. For example, a nanoparticle can have a gold core and outer shell comprising silica and an organic dye. Such nanoparticles can have use in, for example, optical communication applications, chemical and biosensing applications, and imaging applications. | 12-06-2012 |
Beau A. Belgrave, Sammamish, WA US
Patent application number | Description | Published |
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20130290255 | DYNAMIC REPLICATION OF NETWORKED FILES - In embodiments of dynamic replication of networked files, a process that utilizes file system objects is executed on a computing device. A file system request that is initiated by the process for a requested file system object can be intercepted, and a determination is made as to whether the requested file system object exists based on file system metadata. The file system request from the process is returned if the requested file system object is stored on the computing device. Alternatively, replication of the requested file system object is initiated from a networked peer device that has the requested file system object to replicate the file system object to the computing device. Alternatively, an indication that the requested file system object does not exist can be returned to the process. | 10-31-2013 |
John Belgrave, Calgary CA
Patent application number | Description | Published |
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20140041867 | ENHANCED OIL RECOVERY INITIATED WITH ZERO EMISSION IN-SITU COMBUSTION - The invention provides an enhanced oil recovery process that may be used in light oil reservoirs, and which is particularly beneficial in high-relief formations. The process includes an initial injection of air into the formation through an injection well to support the in-situ combustion and mobilize formation fluids. Produced flue gas is recovered and recycled into the formation by injection through an injection well. Initially, gas production is restricted for the purpose of increasing the gas injection to recovery ratio to pressurize the formation. With an increase in formation pressure, the rate of air injection is gradually reduced as the rate of recovered flue gas injection increases. Combustion front propagation in the formation is controlled by the rate of production at each actively producing well to ensure good horizontal sweep across the well and to prevent channeling to one or more production wells. | 02-13-2014 |