Bilak
Mark Bilak, Sandy Hook, CT US
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20090287944 | System and method of controlling an operating frequency in an electronic system - A method and apparatus for adaptively adjusting the operating voltage of an integrated circuit in response to tester-to-system variations, worst-case testing techniques, process variations, temperature variations, or reliability wearout mechanisms. The minimum operating voltage of an integrated circuit is determined either during external testing of the integrated circuit or during built-in-self-testing. The minimum operating voltage is transmitted to a variable voltage regulator where it is used to set the output of the regulator. The output of the regulator supplies the integrated circuit with its operating voltage. This technique enables tailoring of the operating voltage of integrated circuits on a part-by-part basis which results in power consumption optimization by adapting operating voltage in response to tester-to-system variations, worst-case testing techniques, process variations, temperature variations or reliability wearout mechanisms. Alternatively, the invention enables adaptive adjustment of the operating frequency of an integrated circuit. The invention enables system designers to adaptively optimize either system performance or power consumption on a part-by-part basis in response to tester-to-system variations, worst-case testing techniques, process variations, temperature variations or reliability wearout mechanisms. | 11-19-2009 |
Mark R. Bilak, Fuquay-Varina, NC US
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20090044975 | SUBTERRANEAN MATERIAL DISPENSING APPARATUS AND METHOD - A material dispensing device delivers material directly into the ground. According to one embodiment of the material dispensing device, the device comprises an elongated hollow shaft, a receptacle, a helical flange and on or more openings formed in the shaft or helical flanges. The receptacle is disposed adjacent one end of the shaft for holding material. The receptacle is communicatively open to the shaft such that the material or a liquid-material mixture dissolved from at least a portion of the material can flow from the receptacle into the shaft. The helical flange is secured to the shaft. The shaft and helical flange are configured such that rotation of the shaft and flange causes the material dispensing device to be driven into the ground. The one or more openings formed in the shaft or helical flange disperse the material or the liquid-material mixture into the ground. | 02-19-2009 |
Mark R. Bilak, Sandy Hook, CT US
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20080301336 | DYNAMIC MEMORY ALLOCATION BETWEEN INBOUND AND OUTBOUND BUFFERS IN A PROTOCOL HANDLER - An apparatus and method for dynamically allocating memory between inbound and outbound paths of a networking protocol handler so as to optimize the ratio of a given amount of memory between the inbound and outbound buffers is presented. Dedicated but sharable buffer memory is provided for both the inbound and outbound processors of a computer network. Buffer memory is managed so as to dynamically alter what portion of memory is used to receive and store incoming data packets or to transmit outgoing data packets. Use of the present invention reduces throttling of data rate transmissions and other memory access bottlenecks associated with conventional fixed-memory network systems. | 12-04-2008 |
Roman Bilak, N.w. Calgary CA
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20090062593 | METHOD FOR REDUCING THE EMISSION OF GREEN HOUSE GASES INTO THE ATMOSPHERE - A method for reducing the emission of greenhouse gases, such as for example carbon dioxide, into the atmosphere above a ground surface, the method comprising injecting a gas stream comprising one or more than one greenhouse gas into a subsurface injection formation, where the subsurface injection formation comprises a water-laden layer comprising formation water, and where some or all of the greenhouse gases present in the gas stream become dissolved in the formation water in the subsurface injection formation, sequestering the one or more than one greenhouse gas in the subsurface injection formation, separating non-greenhouses gas in situ from the greenhouse gas, venting the non-greenhouse gas from the formation and thereby reducing the emission of greenhouse gases into the atmosphere. | 03-05-2009 |
Roman Bilak, Calgary CA
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20110315386 | PROCESS FOR SEQUESTRATION OF FLUIDS IN GEOLOGICAL FORMATIONS - A process for geo-sequestration of a water-soluble fluid includes selection of a target water-laden geological formation bounded by an upper formation of low permeability, providing an injection well into the formation and injecting the fluid into the injection well under conditions of temperature, pressure and density contrast selected to cause the fluid to enter the formation and rise within the formation. This generates a density-driven convection current of formation water which promotes enhanced mixing of the water-soluble fluid with formation water. | 12-29-2011 |
20130284438 | MULTI-STAGE FRACTURE INJECTION PROCESS FOR ENHANCED RESOURCE PRODUCTION FROM SHALES - The invention relates to a method of generating a network of fractures in a rock formation for extraction of hydrocarbon or other resource from the formation. The method includes the steps of i) enhancing a network of natural fractures and incipient fractures within the formation by injecting a non-slurry aqueous solution into the well under conditions suitable for promoting dilation, shearing and/or hydraulic communication of the natural fractures, and subsequently ii) inducing a large-fracture network that is in hydraulic communication with the enhanced natural fracture network by injecting a plurality of slurries comprising a carrying fluid and sequentially larger-grained granular proppants into said well in a series of injection episodes. | 10-31-2013 |
20140186119 | SEQUESTRATION OF GREENHOUSE GASSES BY GENERATING AN UNSTABLE GAS/SALINE FRONT WITHIN A FORMATION - A method is provided for sequestration of a greenhouse gas in a water-laden formation by injection of a fluid comprising greenhouse gas (GHG) into a formation under conditions suitable for generating an unstable front of said greenhouse gas within the formation. The injection may comprise a first stage wherein a gas phase comprising CO2 is injected into the formation, followed by a second stage comprising injecting an aqueous liquid into the formation, to thereby generate an unstable front within the formation that results in relatively rapid dissolution of the injected CO2 within the formation water. The cyclic nature of the injection, alternating between GHG and water injection, can be repeated for a number of times until the carrying capacity of the formation is deemed to have been reached. | 07-03-2014 |
Ronald E. Bilak, Seneca Falls, NY US
Patent application number | Description | Published |
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20090044975 | SUBTERRANEAN MATERIAL DISPENSING APPARATUS AND METHOD - A material dispensing device delivers material directly into the ground. According to one embodiment of the material dispensing device, the device comprises an elongated hollow shaft, a receptacle, a helical flange and on or more openings formed in the shaft or helical flanges. The receptacle is disposed adjacent one end of the shaft for holding material. The receptacle is communicatively open to the shaft such that the material or a liquid-material mixture dissolved from at least a portion of the material can flow from the receptacle into the shaft. The helical flange is secured to the shaft. The shaft and helical flange are configured such that rotation of the shaft and flange causes the material dispensing device to be driven into the ground. The one or more openings formed in the shaft or helical flange disperse the material or the liquid-material mixture into the ground. | 02-19-2009 |