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Nieto, US
Jesus Gallego-Preciado Nieto, Grand Island, NY US
| Patent application number | Description | Published |
|---|---|---|
| 20100000305 | METHOD AND KIT FOR ADSORBENT PERFORMANCE EVALUATION - The present invention generally relates to methods and kits for measuring and analyzing degradation of adsorbent materials, particularly for adsorbent materials used in gas separation processes. The present invention can assess the damage to adsorbent due to moisture contamination and it can assess damage that is not moisture-related. The advantage to the present invention is that it can detect degradation of adsorbent before the degradation affects production. Another advantage is that it can conclusively determine whether the sieve is damaged. Because it is so inexpensive to run, the test of the present invention can be conducted to determine adsorbent damage and to confirm whether the damage continues to be an issue. The present invention can test adsorbents in any form, including, but not limited to, bead, pellet or powder form. | 01-07-2010 |
| 20100000306 | METHOD AND KIT FOR ADSORBENT PERFORMANCE EVALUATION - The present invention generally relates to methods and kits for measuring and analyzing degradation of adsorbent materials, particularly for adsorbent materials used in gas separation processes. The present invention can assess the damage to adsorbent due to contamination including moisture contamination and it can assess damage that is not contaminant-related. The advantage to the present invention is that it can detect degradation of adsorbent directly at the plant site before the degradation affects production. Another advantage is that it can conclusively determine whether the adsorbent is damaged. Because it is so inexpensive to run, the test of the present invention can be conducted to determine adsorbent damage and to confirm whether the damage continues to be an issue. The present invention can test adsorbents in any form, including, but not limited to, bead, pellet or powder form. | 01-07-2010 |
John Wesley Nieto, Rochester, NY US
| Patent application number | Description | Published |
|---|---|---|
| 20110028109 | WIRELESS COMMUNICATIONS DEVICE WITH WHITE GAUSSIAN NOISE GENERATOR AND RELATED METHODS - A wireless communications device may include a wireless transmitter, a modulator connected to the wireless transmitter, and a white Gaussian noise generator connected to the modulator. The white Gaussian noise generator may include at least one pseudorandom number generator, and a fast Walsh transform module for generating white Gaussian noise based upon the pseudorandom numbers. | 02-03-2011 |
Jose Nieto, Chicago, IL US
| Patent application number | Description | Published |
|---|---|---|
| 20090032138 | Vacuum attachment for rotary tool - An attachment device for a rotary tool having an output shaft extending from the rotary tool housing is disclosed herein. The attachment device comprises an attachment housing defining a vacuum mouth. A fastening member is coupled to the attachment housing, and is configured to releasably connect the attachment housing to the tool housing. A fan is retained within the attachment housing. The fan is configured for connection to the end of the output shaft extending from the rotary tool such that rotation of the output shaft results in rotation of the impeller. Rotation of the impeller causes air and debris to be drawn into the attachment through the mouth. A debris container is coupled to the attachment housing and is configured to receive the debris drawn into the housing through the vacuum mouth. | 02-05-2009 |
Marceliano B. Nieto, Abingdon, MD US
| Patent application number | Description | Published |
|---|---|---|
| 20080242853 | Non-grassy, non-beany, low pigment and low micro guar gum and process for making the same - The invention relates generally to a guar gum with no perceptible grassy, green or beany flavor, low pigment and low micro both in partially hydrolyzed and non-hydrolyzed forms, as well as a process for making the same. | 10-02-2008 |
| 20090208603 | SUPER DISPERSIBLE GUMS AND POWDERS AND PROCESS FOR MAKING THE SAME - Super dispersible gums, starches, powder ingredients, and blends thereof, which disperse readily using spoon mixing are produced by surface coating of particles with a cross-linked hydrogel, or cold-water insoluble/slow-swelling hydrocolloid. The Processes are presented for producing products with increased dispersibility. Some of the poorly-dispersing or low dispersible substrates include xanthan gum, various cellulose derivatives, various seed gums, carrageenans, pectin, various alginates, gum Arabic and other tree exudates, larch gum, konjac, blends of gums, various instant starches, gum-starch blends, soy protein, egg solids, non-fat dry milk, certain flours, and cocoa. | 08-20-2009 |
| 20100028521 | GUM ARABIC REPLACEMENTS IN: (1) PANNING, CONFECTIONS, ADHESION & COATINGS; (2) EDIBLE FILMS AND FLAVOR ENCAPSULATION; AND (3) LITHOGRAPHY - A method of preparing a gum arabic replacement, partial replacement or extending composition, for use in a variety of applications such as food, pharmaceutical and industrial applications is disclosed. In one embodiment, the invention is directed towards a method of preparing a gum arabic replacement, partial replacement or extending composition for use in panning, candy, coating and adhesion applications. The method includes selecting a strong (key) film former of natural and/or modified polysaccharides that comprises between approximately 0.1% and approximately 10% of the composition, or used at a level in the finished application equivalent to about 0.1 to 10% of what gum arabic would typically be used regardless of whether the gum arabic is used. | 02-04-2010 |
Robert L. Nieto, Livermore, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20110067703 | MEDICAL DEVICE WITH ANTIMICROBIAL LAYER - A medical device includes a conduit for a fluid. The conduit has a wall formed of a hydrophobic polymer with a hydrophilic polymer layer extruded over it, and an antimicrobial substantially dispersed within the hydrophilic polymer. The antimicrobial compound may be a predetermined amount of phosphorus-based glass having a predetermined quantity of a metal such as silver substantially dispersed therein. The medical device may be an endotracheal tube made by providing a hydrophobic polymer, a hydrophilic polymer and an antimicrobial compound, forming the hydrophobic polymer, the hydrophilic polymer and the antimicrobial compound into a conduit, and forming a cuff on an end of the conduit. | 03-24-2011 |