| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 095028000 | MAGNETIC SEPARATION | 13 |
| 20080196581 | Solar Atmospheric CO2 Cleaner - An increasing level of carbon dioxide gas in the earth's atmosphere has been determined and is generally accepted by the scientific community. The human contribution to increases in the percentage of carbon dioxide in the atmosphere has been identified as a driving force of global climate change. | 08-21-2008 |
| 20080307960 | Air Pollutant Removal Using Magnetic Sorbent Particles - Absorbent magnetic particles are used to remove air pollutants. The adsorbent magnetic particles can adsorb various air pollutants, including nitrogen oxides, sulfur oxides, and mercury, and may be regenerated for reuse. | 12-18-2008 |
| 20080314243 | METHOD AND APPARATUS FOR FLUID PURIFICATION - A catalytic system ( | 12-25-2008 |
| 20090084262 | ASSEMBLY AND PROCESS FOR IMPROVING COMBUSTION EMISSIONS OF A COMBUSTION APPARATUS - The present invention provides an assembly for reducing combustion emissions of a combustion apparatus having a combustion chamber producing combustion. The combustion apparatus also has a fluid passageway for carrying treated fluid to the combustion chamber. The assembly comprises at least one magnet positioned such that a north pole of each magnet is adjacent the fluid passageway, and a south pole of each magnet is on an opposite side of the north pole and positioned away from the fluid passageway. Each magnet is capable of operating at a sustained efficiency at operating temperatures of approximately 302° F. Each magnet provides a residual flux density of at least approximately 10,000 gauss. The combustion emissions have at least approximately a 1.5% reduction in carbon dioxide emissions compared to the combustion of untreated fluid, as well as reductions in hydrocarbon and carbon monoxide emissions. | 04-02-2009 |
| 20090126565 | Method of Distancing a Bubble and Bubble Displacement Apparatus - In the field of immersion lithography, it is known to provide a liquid between an optical exposure system and a wafer carrying layers of photosensitive material to be irradiated with a pattern by the optical exposure system. However, bubbles are known to form or exist in the liquid, sometimes close to a surface of the wafer resulting in scattering of light emitted from the optical exposure system. The scattering causes the pattern recorded in the layers of photosensitive material to be corrupted, resulting in defective wafers. Therefore, the present invention provides a bubble displacement apparatus comprising a drive signal generator for driving a force generator arranged to generate a force in response to a drive signal generated by the drive signal generator. The force generated urges the bubble away from the surface. | 05-21-2009 |
| 20090178556 | METHOD FOR SEPARATING GAS COMPONENTS AND SEPARATOR FOR THE SAME - A method is provided for separating gas including diamagnetic materials and paramagnetic materials containing nitrogen oxides and oxygen into diamagnetic materials, nitrogen oxides, and oxygen. The method includes steps of providing a magnetic device along a gas passage, and providing a plurality of flow passages. Each flow passage has one end that is separately connected to the gas passage. The flow passages extend in a direction that a force due to a magnetic field of the magnetic device is applied to the paramagnetic materials in the gas. The method further includes a step of allowing the gas to flow into the flow passages so that the diamagnetic materials or the paramagnetic materials in the gas enter into a corresponding flow passage among the plurality of the flow passages. | 07-16-2009 |
| 20110132192 | DEVICES, SYSTEMS, AND METHODS FOR SEPARATION OF FEEDSTOCK COMPONENTS - Separation systems can utilize a combination of forces to separate constituent components of a working fluid from each other. Some separation systems utilize one or more of centrifugal and gravitational forces in the purification of hydrogen gas. Some separation systems can utilize one or more of electromotive and magnetic forces in the purification of hydrogen gas. | 06-09-2011 |
| 20120067206 | Brake Pad Assembly and Method for Collecting Brake Particles - A disk brake pad ( | 03-22-2012 |
| 20130174731 | Isotope Separation by Magnetic Activation and Separation - A method for separation of isotopes includes vaporizing a sample having two or more isotopes of the same element. A stream of atoms is generated from the vaporized sample. One or more light waves are applied to the stream. The one or more light waves are tuned to convert one or more specific isotopes in the flowing stream to a set of one or more magnetic states. A magnetic field is applied to the stream, deflecting atoms in the stream based on their magnetic states. Isotopes are collected based on their deflections (or lack of deflection). | 07-11-2013 |
| 20140245885 | Process and Device for Separating Isotopes from a Gas Flow - A method for the isotopic separation of at least two different isotopes of a body in gaseous form by:
| 09-04-2014 |
| 20140360362 | METHOD AND SYSTEMS FOR PARTICLE SEPARATION IN AN EXHAUST GAS RECIRCULATION SYSTEM - Various methods and systems are provided for separating particles within a gas flow traveling through a gas flow passage of an engine. In one embodiment, a particle separator includes a plurality of vanes positioned across a gas flow passage through which gas flow passes, the plurality of vanes angled with respect to a flow direction of the gas flow, and a particle trap for collecting separated particles, the particle trap disposed in the gas flow passage. | 12-11-2014 |
| 20150059571 | REMOVING CARBON NANOTUBES FROM A CONTINUOUS REACTOR EFFLUENT - Systems and a method for removing carbon nanotubes from a continuous reactor effluent are provided herein. The method includes flowing the continuous reactor effluent through a separation vessel, separating carbon nanotubes from the continuous reactor effluent in the separation vessel, and generating a stream including gaseous components from the continuous reactor effluent. | 03-05-2015 |
| 20180021788 | Device and Method for Remote Communications and Object Locomotion | 01-25-2018 |
