Blasiak
Darek Blasiak, Park Ridge, IL US
Patent application number | Description | Published |
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20160071223 | ESTIMATING CROP YIELD DATA - A method begins by a computing device gathering, for a piece of farm equipment, harvesting data while the piece of farm equipment is harvesting a crop in a geographic area, where the harvesting data includes location information, environmental information, harvest sensing information, and farm equipment operational information. The method continues with the computing device determining a harvesting scaling factor for the piece of farm equipment based on the harvesting data and historical crop yield data. The method continues with the computing device estimating current crop yield data based on the harvesting scaling factor and one of the harvesting data and the historical crop yield data. | 03-10-2016 |
Joseph D. Blasiak, Fairport, NY US
Patent application number | Description | Published |
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20100129181 | LENS HANDLER - A lens handler includes a first arm and a second arm, the first and second arms of the lens handler being moveable relative to each other to define an open position, a closed position, and a lens handling position. The lens handler also includes a power source electrically connected to the first and second arms and configured to pass an electrical current between the first and second arms when the arms are in the closed position. | 05-27-2010 |
Maciej Blasiak, Plano, TX US
Patent application number | Description | Published |
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20090246705 | DI Water Rinse of Photoresists with Insoluble Dye Content - A method of forming a pattern in a photoresist layer which contains a dye that is insoluble in the developer solution is disclosed. A rinse liquid, typically deionized water, is dispensed onto the substrate while it is rotated at less than 750 rpm. The dye in the exposed regions is carried off by the rinse liquid, and does not accumulate in corners of exposed regions at the edge of the substrate due to centrifugal action. | 10-01-2009 |
20150380363 | Methods and Apparatus to Reduce Semiconductor Wafer Warpage in the Presence of Deep Cavities - Methods and apparatus for forming structures to reduce wafer warpage. A method includes providing a semiconductor wafer having a plurality of integrated circuits; providing a photomask defining a plurality of cavities to be formed by an etch on a backside surface of the semiconductor wafer; defining structural support areas for the backside surface, the structural support areas being contiguous areas; providing areas on the photomask that correspond to the structural support areas, the structural support areas being areas that are not to be etched; using the photomask, performing an etch on the backside surface of the semiconductor wafer to form the cavities by removing semiconductor material from the backside surface of the semiconductor wafer; and the structural supports on the backside of the semiconductor wafer formed as areas that are not subjected to the etch. Additional methods and apparatus are also disclosed. | 12-31-2015 |
Wlodzimierz Blasiak, Saltsjo-Duvnas SE
Patent application number | Description | Published |
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20100301273 | BIOMASS GASIFICATION METHOD AND APPARATUS FOR PRODUCTION OF SYNGAS WITH A RICH HYDROGEN CONTENT - A biomass gasification method and apparatus for production of syngas with arich hydrogen content. In the gasification process the gasification energy is supplied by the sensible heat carried by a high temperature agent combined with the heat released by the chemical reaction between calicined lime and carbon dioxide. | 12-02-2010 |
20110078951 | TWO-STAGE HIGH-TEMPERATURE PREHEATED STEAM GASIFIER - A gasifier combines two reactors using externally generated preheated high temperature steam injection into the first reactor, where the heating demand for gasification is supplied by the sensible energy from the steam. The gasifier can produce a medium and higher LCV syngas. The first reactor is a fixed bed gasification section where the coarse feedstock is gasified, and the second reactor is an entrained-bed gasification section where the liquid and fine feedstock is gasified. Solid coarse feedstock is devolatilized in the first fixed bed reactor of the gasifier with high-temperature steam, and subsequently, in the second reactor subjected to a higher temperature sufficient to crack and destroy tars and oils. Activated carbon may be formed as co-product. The gasifier may be used with various solid and liquid feedstocks. The gasifier is capable of gasifying such different feedstocks simultaneously. | 04-07-2011 |