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Available Technologies

Title Date Posted Patent Information Sort ascending Opportunity
Spheroid-Encapsulated Ionic Liquids for Gas Separation USPN 9,050,579

An innovative approach has been developed allowing the use of high viscosity for gas separations. The method involves the encapsulation of ionic liquids (ILs) into polymer spheroids, taking advantage of the gas-absorbing properties and cost-effectiveness of ILs, while circumventing known IL viscosity issues. Significantly, the process permits optimization or ‘tuning’ of the IL-containing spheroids for specific gas separation applications. This technology is available for licensing and/or further collaborative research with the U.S. Department of Energy’s National Energy Technology Laboratory.

Regenerable Immobilized Aminosilane Sorbents for Carbon Dioxide Capture USPN 8,834,822

Research is currently active on the patented technology titled, "Regenerable Immobilized Aminosilane Sorbents for Carbon Dioxide Capture." The technology is available for licensing and/or further collaborative research from the U.S. Department of Energy’s National Energy Technology Laboratory.

Separation of CO2 From Multi-Component Gas Streams USPN 8,771,401

Research is active on the patented technology, titled "Apparatus and Process for the Separation of Gases Using Supersonic Expansion and Oblique Shock Wave Compression.” This technology is available for licensing and/or further collaborative research from the U.S. Department of Energy’s National Energy Technology Laboratory.

Gas Sensing System Employing Raman Scattering USPN 8,674,306

The Department of Energy’s National Energy Technology Laboratory (NETL) is seeking collaborative research partners and/or licensees interested in implementing a patented gas sensing system technology. The patent is jointly owned by NETL and the University of Pittsburgh, with the University handling the licensing.  NETL would work with a potential licensee and the University to license the technology.

Described in this patent is a gas analyzing sensor that characterizes gaseous fuel, exhaust gases, or other process gas streams. The sensor reports concentrations of all majority gases to 0.1% in 1 second or less, and can be used for real-time gas analysis and system control. The sensor relies on novel techniques to enhance usually weak spontaneous Raman emissions from the gases being sampled, enabling the application of Raman spectroscopy to rapid gas analysis. The invention provides a gas composition measurement system that is fast, accurate, cost effective, and capable of continuously measuring the concentrations of gases in a mixture such as natural gas, at elevated system pressures.

Radial Flow Pulse Jet Mixer USPN 8,469,583

Research is currently active on the patented technology "A Process for the Mixing of Heavy Solid Particulate Matter in a Lighter Liquid Carrier Fluid Using an Inverted Pulsed Jet Mixing Apparatus." The technology is available for licensing and/or further collaborative research from the U.S. Department of Energy's National Energy Technology Laboratory.

Embedded Gas and Temperature Sensors for Extreme Environments USPN 8,411,275; USPN 8,638,440; USPN 8,741,657; USPN 8,836,945; USPN 9,568,377; USPN 9,019,502; USPN 9,964,494

Research is active on optical sensors integrated with advanced sensing materials for high temperature embedded gas sensing applications. A portfolio of patented technologies are available for licensing and/or further collaborative research from the U.S. Department of Energy’s National Energy Technology Laboratory (NETL). Organizations or individuals with capabilities in optical sensor packaging for harsh environment and high temperature applications are encouraged to contact NETL to explore potential collaborative opportunities.

Method for Determining Solids Circulation Rate USPN 8,116,992

Research is currently active on the patented technology "Method for Determining Solids Circulation Rate." The technology is available for licensing and/or further collaborative research from the U.S. Department of Energy’s National Energy Technology Laboratory.

A Unique Split Laser System for Environmental Monitoring USPN 7,421,166; USPN 8,786,840; USPN 8,934,511; USPN 9,297,696; USPN 9,548,585

Researchers at the U.S. Department of Energy’s National Energy Technology Laboratory (NETL) have developed a novel split laser system for in situ environmental monitoring via Laser Induced Breakdown Spectroscopy (LIBS) or Raman analysis.  The design features fiber-coupled, optically-pumped, passively Q-switched lasers that are small, portable, low cost and robust enough for even downhole applications.  The technology can be used in a wide array of applications, including, but not limited to, carbon dioxide (CO2) monitoring for CO2 sequestration, oil and gas monitoring, and water analysis (groundwater and municipal systems).  The technology is available for licensing and/or further collaborative research with NETL.

Proof of concept experimentation has been completed. NETL researchers are continuing to design miniaturized lasers and optical delivery systems to allow further size and cost reductions. The researchers have identified the need to complete and demonstrate both single point and multipoint measurement prototypes.  The results would further validate the technology and expedite its deployment to the private sector. 

High Capacity Immobilized Amine Sorbents USPN 7,288,136

The Department of Energy’s National Energy Technology Laboratory is seeking licensing partners interested in implementing United States Patent Number 7,288,136 titled "High Capacity Immobilized Amine Sorbents."

Disclosed in this patent is the invention of a method that facilitates the production of low-cost carbon dioxide (CO2) sorbents for use in large-scale gas-solid processes. This method treats an amine to increase the number of secondary amine groups and impregnates the amine in a porous solid support. As a result of this improvement, the method increases CO2 capture capacity and decreases the cost of using an amine-enriched solid sorbent in CO2 capture systems.

Solid Sorbents for Removal of Carbon Dioxide from Gas Streams at Low Temperatures USPN 6,908,497

The Department of Energy’s National Energy Technology Laboratory is seeking licensing partners interested in implementing United States Patent Number 6,908,497, titled "Solid Sorbents for Removal of Carbon Dioxide from Gas Streams at Low Temperatures."

Disclosed in this patent is a new low-cost carbon dioxide (CO2) sorbent that can be used in large-scale gas-solid processes. Researchers have developed a new method to prepare these sorbents by treating substrates with an amine and/or an ether in a way that either one comprises at least 50 weight percent of the sorbent. The sorbent captures compounds contained in gaseous fluids through chemisorptions and/or physisorption between layers of the substrate lattice. The polar amine liquids are located within these layers. This method eliminates the need for high surface area supports and provides absorption capabilities independent of the sorbent surface area, and can be regenerated.