Abstract: Systems for enhanced in-situ or perhaps even ex-situ biogenic methane production from hydrocarbon-bearing formations (1) including coal seam, oil shale, coal, coal derivates and the like are presented in embodiments such as but not limited to: increasing and perhaps even selection of microbial populations (2), amending CBM water and other microbe-containing media, diminishing sulfate reduction competition, enhancing organic matter concentrations and generation of biogenic methane (10), universally treating hydrocarbon-bearing formations, and introducing amendments (3) to hydrocarbon-bearing formations.
Type:
Grant
Filed:
October 8, 2010
Date of Patent:
March 6, 2012
Assignee:
University of Wyoming Research Corporation
Abstract: This invention provides a method and compositions for the controlled release of drugs that have been attached by means of a covalent bond to a polymer or other moiety that blocks activity of the drug until it has been released. A two-stage process is provided in which an unmasking reaction results in the formation of a chemical group that can then undergo a second reaction to release the drug. In a preferred embodiment, the narcotic analgesic fentanyl covalently attached to an inert polymer by way of its nitrogen through the formation of a quaternary vinylammonium salt, and then released by a sequence involving hydrolysis of an acetal that exposes an alcohol that may then undergo an intramolecular nucleophilic substitution reaction involving displacement of the nitrogen of oxycodone.
Abstract: Embodiments include treatments for acid mine drainage generation sources (10 perhaps by injection of at least one substrate (11) and biologically constructing a protective biofilm (13) on acid mine drainage generation source materials (14). Further embodiments include treatments for degradation of contaminated water environments (17) with substrates such as returned milk and the like.
Type:
Grant
Filed:
June 26, 2008
Date of Patent:
January 31, 2012
Assignee:
The University of Wyoming Research Corporation
Inventors:
Song Jin, Paul H. Fallgren, Jeffrey M. Morris
Abstract: A fluidized bed reactor device for sequestering flue gas CO2 from a flue gas source is provided. The fluidized bed reactor device comprises an operating portion having a first end and a second end. A flue gas inlet is formed at the first end of the operating portion with the flue gas inlet receiving flue gas from the flue gas source. A flue gas outlet formed at the second end of the operating portion. A distributor plate is mounted within the operating portion adjacent the first end of the operating portion. A volume of fly ash is encased within the operating portion between the second end and the distributor plate with the flue gas traveling through the distributor plate and the fly ash creating reacted flue gas wherein the reacted flue gas exits the operating portion through the flue gas outlet.
Abstract: In at least one embodiment, the inventive technology relates to in-vessel generation of a material from a solution of interest as part of a processing and/or analysis operation. Preferred embodiments of the in-vessel material generation (e.g., in-vessel solid material generation) include precipitation; in certain embodiments, analysis and/or processing of the solution of interest may include dissolution of the material, perhaps as part of a successive dissolution protocol using solvents of increasing ability to dissolve. Applications include, but are by no means limited to estimation of a coking onset and solution (e.g., oil) fractionating.
Type:
Application
Filed:
September 23, 2011
Publication date:
January 19, 2012
Applicant:
The University of Wyoming Research Corporation d/b/a Western Research Institute
Abstract: Methods and systems to achieve clean fuel processing systems in which carbon dioxide emissions (1) from fossil fuel consumption sources (2) may be processed in at least one processing reactor (4) containing a plurality of chemoautotrophic bacteria (5) which can convert the carbon dioxide emissions into biomass (6) which may then be used for various products (21) such as biofuels, fertilizer, feedstock, or the like. Sulfate reducing bacteria (13) may be used to supply sulfur containing compounds to the chemoautotrophic bacteria (5).
Type:
Application
Filed:
July 27, 2010
Publication date:
January 5, 2012
Applicant:
The University of Wyoming Research Corporation d/b/a Western Research Institute
Inventors:
Song Jin, Paul Fallgren, Jeffrey M. Morris, Alan E. Bland, Patick Richards, Jesse D. Newcomer, Patricia Colberg
Abstract: A multi-aperture passive light sensor and method for detecting motion and edges of an object are described. The sensor may include at least two focusing lenses mounted on a spherical surface for focusing light from the object into the ends of optical fibers, the optical axis for each lens diverging at an angle from that of adjacent lenses depending on the intended application. Each lens is located closer to the end of its associated optical fiber, which is disposed coaxially to the optical axis of the lens, than the natural focal plane of the lens, thereby blurring the light received from the object. Light exiting the fibers is detected by photosensors located at the opposite end of each optical fiber, and voltage differences between the voltages generated in response to the light intensity impinging on the photosensors are used to detect motion and edges of the object.
Type:
Application
Filed:
December 21, 2010
Publication date:
January 5, 2012
Applicant:
University of Wyoming
Inventors:
Geoffrey P. Luke, Cameron H.G. Wright, Steven F. Barrett
Abstract: An assay and method of making same for use in SERS spectroscopy. The assay includes colloidal particles of a metal, which have been lyophilized. The lyophilized particles of metal produce a SERS active solution when reconstituted. The lyophilized particles of metal may be provided in a container in an assay system.
Type:
Application
Filed:
June 15, 2011
Publication date:
December 1, 2011
Applicant:
University of Wyoming
Inventors:
Keith T. Carron, Bryan Hubert Ray, Roberta A. Sulk
Abstract: A hydrocarbonaceous material upgrading method may involve a novel combination of heating, vaporizing and chemically reacting hydrocarbonaceous feedstock that is substantially unpumpable at pipeline conditions, and condensation of vapors yielded thereby, in order to upgrade that feedstock to a hydrocarbonaceous material condensate that meets crude oil pipeline specification.
Type:
Application
Filed:
June 6, 2011
Publication date:
November 24, 2011
Applicant:
The University of Wyoming Research Corporation d/b/a Western Research Institute
Inventors:
Lee E. Brecher, Phyllis J. Brecher, Charles G. Mones, Frank D. Guffey
Abstract: At least one embodiment of the inventive technology focuses on a new composition that comprises hexagonally close packed molybdenum carbide crystals, in addition to metallic nickel crystals and/or sodium, and having use as a catalyst in a Fischer-Tropsch process to produce alcohol. At least one embodiment of a related aspect of the inventive technology is a Fischer-Tropsch reaction to produce alcohols from carbon monoxide and hydrogen using the aforementioned composition to catalyze reactions producing higher alcohols.
Type:
Grant
Filed:
April 27, 2007
Date of Patent:
November 1, 2011
Assignee:
University of Wyoming Research Corporation
Inventors:
Andrew J. Lucero, Vijay K. Sethi, William H. Tuminello
Abstract: An apparatus and method for detecting wear of a surface of an object or part, and directing the measured amount of wear to an interface such that an operator may be apprised of this value are described. One end of the sacrificial wear sensor hereof is disposed such that it experiences the same wear as the surface of the part to be monitored. One embodiment of the present sensing element includes a permanent magnet fixedly sandwiched between two plates having high magnetic permeability material, wherein magnetic poles are oriented perpendicular to the plates. The plates extend beyond the magnet on the side thereof opposite the wear edge, forming thereby an air gap such that magnetic flux is concentrated in the plates with the magnetic circuit being completed through the air gap between the plate extensions. A magnetic flux monitoring device may be disposed in the air gap of the sensing element for measuring the magnetic flux density in the gap.
Abstract: An assay method and kit for detecting a chemical. The method and kit utilize a metal surface capable of surface enhanced Raman Scattering. The metal surface may be provided in the form of one or more nanoparticles, to increase the surface enhanced Raman Scattering capability of the metal surface. The nanoparticles may be treated with one or more additives to further enhance or maintain the surface enhanced Raman Scattering capability of the nanoparticles.
Type:
Grant
Filed:
July 27, 2010
Date of Patent:
August 9, 2011
Assignee:
University of Wyoming
Inventors:
Keith T. Carron, Roberta A. Sulk, Vince S. Martin
Abstract: Methods and apparatus are disclosed for possibly producing pipeline-ready heavy oil from substantially non-pumpable oil feeds. The methods and apparatus may be designed to produce such pipeline-ready heavy oils in the production field. Such methods and apparatus may involve thermal soaking of liquid hydrocarbonaceous inputs in thermal environments (2) to generate, though chemical reaction, an increased distillate amount as compared with conventional boiling technologies.
Type:
Grant
Filed:
December 6, 2005
Date of Patent:
July 12, 2011
Assignee:
University of Wyoming Research Corporation
Abstract: The present invention involves inhibiting clathrate hydrate formation by adding ionic liquids that are soluble in water. Properly tailored ionic liquids shift the hydrate-aqueous liquid-vapor equilibrium curve to a lower temperature and, at the same time, retard the hydrate formation by slowing down the hydrate nucleation rate. This dual function makes this type of inhibitors perform more effectively. The present invention is useful for the production, processing, and transportation in oil and gas industry, especially for deep-sea exploration and production where the operating temperature and pressure become in favor of hydrate formation.
Abstract: A method is disclosed for analyzing keratinized tissue, particularly fingernails, of a subject to diagnose osteoporosis and bone fracture risk. A Raman spectrum of a sample of keratinized tissue is generated. Broad spectral background features of the spectrum are removed, preferably by using Fourier transform analysis. Peak heights of Raman features of interest, particularly the S—S bond of cystine, are measured. These peak height measurements are normalized using reference peak heights of Raman features that are invariant between normal and osteoporotic subjects, such as the CH2 bending peak.
Abstract: The present invention provides methods and compositions for detecting, identifying and measuring the abundance of chemical nerve agents. Methods and compositions of the present invention are capable of providing selective detection of phosphorous based nerve agents, such as nerve agents that are esters of methyl phosphonic acid derivatives incorporating a moderately good leaving group at the phosphorus. Selectivity in the present invention is provided by a sensor composition having an alpha (?) effect nucleophile group that undergoes specific nucleophilic substitution and rearrangement reactions with phosphorus based nerve agents having a tetrahederal phosphorous bound to oxygen. The present invention includes embodiments employing a sensor composition further comprising a reporter group covalently linked to the alpha effect nucleophile group allowing rapid optical readout of nerve agent detection events, including direct visual readout and optical readout via spectroscopic analysis.
Type:
Grant
Filed:
January 21, 2010
Date of Patent:
May 31, 2011
Assignee:
University of Wyoming
Inventors:
Robert C. Corcoran, Aaron D. Strickland
Abstract: In at least one embodiment, the inventive technology relates to in-vessel generation of a material from a solution of interest as part of a processing and/or analysis operation. Preferred embodiments of the in-vessel material generation (e.g., in-vessel solid material generation) include precipitation; in certain embodiments, analysis and/or processing of the solution of interest may include dissolution of the material, perhaps as part of a successive dissolution protocol using solvents of increasing ability to dissolve.
Type:
Application
Filed:
December 16, 2010
Publication date:
May 26, 2011
Applicant:
The University of Wyoming Research Corporation d/b/a Western Research Institute
Inventors:
John F. Schabron, Joseph F. Rovani, JR.
Abstract: Water collected in the area of coal beds has strongly positive ?13CDIC (12‰ to 22‰) that is readily distinguished from the negative ?13C of most surface and ground water (?8‰ to ?11‰). Furthermore, the DIC concentrations in coproduced water samples are also high (more than 100 mg C/L) compared to the 20 to 50 mg C/L in ambient surface and ground water of the region. The distinctively high ?13C and DIC concentrations allow the identification of surface and ground water that have incorporated CBNG-coproduced water.
Abstract: Generally, this invention relates to the development of field monitoring methodology for new substances and sensing chemical warfare agents (CWAs) and terrorist substances. It also relates to a portable test kit which may be utilized to measure concentrations of halogenated volatile organic compounds (VOCs) in the field. Specifically it relates to systems for reliably field sensing the potential presence of such items while also distinguishing them from other elements potentially present. It also relates to overall systems and processes for sensing, reacting, and responding to an indicated presence of such substance, including modifications of existing halogenated sensors and arrayed sensing systems and methods.
Type:
Grant
Filed:
June 19, 2009
Date of Patent:
March 1, 2011
Assignee:
The University of Wyoming Research Corporation
Inventors:
John F. Schabron, Joseph F. Rovani, Jr., Theresa M. Bomstad, Susan S. Sorini-Wong, Gregory K. Wong