Patents by Inventor Michael Sansone
Michael Sansone has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
-
Patent number: 10907472Abstract: A method and system are described for imaging core samples associated with a subsurface region. The imaging results may be used to create or update a subsurface model and using the subsurface model and/or imaging results in hydrocarbon operations. The imaging techniques may include NMR imaging and CT imaging. Further, the imaging techniques may also include exposing the core sample to the imaging gas.Type: GrantFiled: February 6, 2018Date of Patent: February 2, 2021Assignee: ExxonMobil Upstream Research CompanyInventors: Hubert E. King, Jr., Shawn Fullmer, Antonio S. Buono, Michael Sansone, Pavel Kortunov, John H. Dunsmuir, Bo Gao, James G. Kralik, Ye Xu
-
Patent number: 10697295Abstract: A method and system are described for imaging core samples associated with a subsurface region. The imaging results may be used to create or update a subsurface model and using the subsurface model and/or imaging results in hydrocarbon operations. The imaging techniques may include NMR imaging and CT imaging. Further, the imaging techniques may also include exposing the core sample to the imaging gas.Type: GrantFiled: February 6, 2018Date of Patent: June 30, 2020Assignee: ExxonMobil Upstream Research CompanyInventors: Antonio S. Buono, Shawn Fullmer, Hubert E. King, Jr., Michael Sansone, Pavel Kortunov, John H. Dunsmuir, Bo Gao, James G. Kralik, Ye Xu
-
Publication number: 20180258763Abstract: A method and system are described for imaging core samples associated with a subsurface region. The imaging results may be used to create or update a subsurface model and using the subsurface model and/or imaging results in hydrocarbon operations. The imaging techniques may include NMR imaging and CT imaging. Further, the imaging techniques may also include exposing the core sample to the imaging gas.Type: ApplicationFiled: February 6, 2018Publication date: September 13, 2018Inventors: Hubert E. King, JR., Shawn Fullmer, Antonio S. Buono, Michael Sansone, Pavel Kortunov, John H. Dunsmuir, Bo Gao, James G. Kralik, Ye Xu
-
Publication number: 20180259467Abstract: A method and system are described for imaging core samples associated with a subsurface region. The imaging results may be used to create or update a subsurface model and using the subsurface model and/or imaging results in hydrocarbon operations. The imaging techniques may include NMR imaging and CT imaging. Further, the imaging techniques may also include exposing the core sample to the imaging gas.Type: ApplicationFiled: February 6, 2018Publication date: September 13, 2018Inventors: Antonio S. Buono, Shawn Fullmer, Hubert E. King, JR., Michael Sansone, Pavel Kortunov, John H. Dunsmuir, Bo Gao, James G. Kralik, Ye Xu
-
Patent number: 7745030Abstract: A proton-conducting polymer membrane comprising polyazoles containing sulfonic acid groups is obtainable by a process comprising: A) mixing one or more aromatic or heteroaromatic tetraamino compounds with one or more aromatic or heteroaromatic carboxylic acids or derivatives thereof which contain at least two acid groups per carboxylic acid monomer, with at least part of the tetraamino compounds or the carboxylic acids comprising at least one sulfonic acid group, or mixing of one or more aromatic or heteroaromatic diaminocarboxylic acids, of which at least part comprises sulfonic acid groups, in polyphosphoric acid to form a solution or dispersion; B) optionally heating the solution or dispersion obtained by step A) under inert gas to temperatures of up to 325° C. to form polyazole polymers; C) applying a layer using the mixture from step A) or B) to a support, thus forming a membrane, and D) partially hydrolyzing the polyphosphoric acid moieties of the membrane from step C) until it is self-supporting.Type: GrantFiled: October 2, 2003Date of Patent: June 29, 2010Assignee: BASF Fuel Cell GmbHInventors: Oemer Uensal, Joachim Kiefer, Gordon Calundann, Michael Sansone, Brian Benicewicz, Eui Wong Choe
-
Patent number: 7736778Abstract: A proton-conducting polymer membrane comprising polyazoles containing phosphonic acid groups is obtainable by a process comprising: A) mixing one or more aromatic or heteroaromatic tetraamino compounds with one or more aromatic or heteroaromatic carboxylic acids or derivatives thereof which contain at least two acid groups per carboxylic acid monomer, with at least part of the tetraamino compounds or the carboxylic acids comprising at least one phosphonic acid group, or mixing of one or more aromatic or heteroaromatic diaminocarboxylic acids, of which at least part comprises phosphonic acid groups, in polyphosphoric acid to form a solution or dispersion; B) optionally heating the solution or dispersion obtained by step A) under inert gas to temperatures of up to 350° C.Type: GrantFiled: October 2, 2003Date of Patent: June 15, 2010Assignee: BASF Fuel Cell GmbHInventors: Oemer Uensal, Joachim Kiefer, Gordon Calundann, Michael Sansone, Brian Benicewicz, Eui Wong Choe
-
Patent number: 7601951Abstract: An API source for mass spectrometry which is configured such that all or a portion of its vacuum assembly, including ion focusing and transport electrostatic lenses and ion guides, and two or more vacuum stages can be removed from the source or system vacuum housing as a complete assembly. The API source may be an ES, APCI or ICP source, or any other ion source which operates at substantially atmospheric pressure. The insert assembly can be electrically isolated from the grounded vacuum housing to enable the delivery of kilovolt potential ions into a magnetic sector mass analyzer from the API source. The insert assemblies can be configured to interface to quadrupole, Time-Of-Flight, ion trap, Fourier Transform, and magnetic sector mass analyzers. Electrical connections can be configured internally to make and break automatically when said insert assembly is inserted or removed from the surrounding vacuum housing.Type: GrantFiled: May 17, 1997Date of Patent: October 13, 2009Assignee: Analytica of Branford, Inc.Inventors: Craig M. Whitehouse, Michael Sansone, Clement Catalano
-
Publication number: 20090163666Abstract: Provided is a polymer composition having a linear, semi-crystalline thermoplastic matrix polymer and a second thermoplastic polymer. The second polymer is a substantially saturated hydrocarbon polymer including (i) a backbone chain and (ii) one or more substantially hydrocarbon sidechains connected to the backbone chain. The sidechains each have a number-average molecular weight of from 2,500 g/mol to 125,000 g/mol and an MWD by SEC of 1.0 to 3.5. The mass ratio of sidechain molecular mass to backbone molecular mass is from 0.01:1 to 100:1. The matrix polymer is present at 95 wt % or more based on the weight of the composition. The second polymer is present at 0.2 to 5.0 wt % or more based on the weight of the composition. Provided is also a method for enhancing flow-induced crystallization in a linear, semi-crystalline thermoplastic matrix polymer. Provided is also a method for processing a polymer composition.Type: ApplicationFiled: December 16, 2008Publication date: June 25, 2009Inventors: David John Lohse, Cynthia A. Mitchell, Michael Sansone
-
Publication number: 20080057358Abstract: The present invention relates to a novel proton-conducting polymer membrane based on polyazoles which can, because of its excellent chemical and thermal properties, be used in a variety of ways and is particularly useful as polymer electrolyte membrane (PEM) to produce membrane electrode units for PEM fuel cells.Type: ApplicationFiled: October 31, 2007Publication date: March 6, 2008Inventors: Gordon Calundann, Michael Sansone, Oemer Uensal, Joachim Kiefer
-
Publication number: 20080050514Abstract: The present invention relates to a novel proton-conducting polymer membrane based on polyazoles which can, because of its excellent chemical and thermal properties, be used in a variety of ways and is particularly useful as polymer electrolyte membrane (PEM) to produce membrane electrode units for PEM fuel cells.Type: ApplicationFiled: October 31, 2007Publication date: February 28, 2008Inventors: Gordon Calundann, Michael Sansone, Oemer Uensal, Joachim Kiefer
-
Publication number: 20060183012Abstract: The present invention relates to proton-conducting polymer membranes which comprise polyazoles containing sulfonic acid groups and is obtainable by a process comprising the steps A) mixing of one or more aromatic and/or heteroaromatic tetraamino compounds with one or more aromatic and/or heteroaromatic carboxylic acids or derivatives thereof which contain at least two acid groups per carboxylic acid monomer, with at least part of the tetraamino compounds and/or the carboxylic acids comprising at least one sulfonic acid group, or mixing of one or more aromatic and/or heteroaromatic diaminocarboxylic acids, of which at least part comprises sulfonic acid groups, in polyphosphoric acid to form a solution and/or dispersion, B) heating of the solution and/or dispersion obtainable according to step A) under inert gas to temperatures of up to 350° C.Type: ApplicationFiled: October 2, 2003Publication date: August 17, 2006Inventors: Oemer Uensal, Joachim Kiefer, Gordon Calundann, Michael Sansone, Brian Benicewiez, Eui Choe
-
Proton-conducting polymer membrane containing polyazole blends and application thereof in fuel cells
Publication number: 20060078774Abstract: The present invention relates to a proton-conducting polymer membrane which comprises polyazole blends and is obtainable by a process comprising the steps A) preparation of a mixture comprising polyphosphoric acid, at least one polyazole (polymer A) and/or one or more compounds which are suitable for forming polyazoles under the action of heat according to step B), B) heating of the mixture obtainable according to step A) under inert gas to temperatures of up to 400° C., C) application of a layer using the mixture from step A) and/or B) to a support, D) treatment of the membrane formed in step C) until it is self-supporting, wherein at least one further polymer (polymer B) which is not a polyazole is added to the composition obtainable according to step A) and/or step B) and the weight ratio of polyazole to polymer B is in the range from 0.1 to 50.Type: ApplicationFiled: October 2, 2003Publication date: April 13, 2006Applicant: PEMEAS GMBHInventors: Oemer Uensal, Joachim Kiefer, Gordon Calundann, Michael Sansone, Brian Benicewicz, Eui Choe -
Publication number: 20060057449Abstract: The present invention relates to a novel proton-conducting polymer membrane based on aromatic polyazoles which contain sulfonic acid groups and in which the sulfonic acid groups are covalently bound to the aromatic ring of the polymer and which can, owing to their excellent chemical and thermal properties, be used for a variety of purposes. Such materials are particularly useful for the production of polymer electrolyte membranes (PEMs) in PEM fuel cells.Type: ApplicationFiled: June 14, 2003Publication date: March 16, 2006Inventors: Gordon Calundann, Michael Sansone, Oemer Uensal, Joachim Kiefer
-
Publication number: 20060008690Abstract: The present invention relates to proton-conducting polymer membranes which comprise polyazoles containing phosphonic acid groups and are obtainable by a process comprising the steps A) mixing of one or more aromatic and/or heteroaromatic tetraamino compounds with one or more aromatic and/or heteroaromatic carboxylic acids or derivatives thereof which contain at least two acid groups per carboxylic acid monomer, with at least part of the tetraamino compounds and/or the carboxylic acids comprising at least one phosphonic acid group, or mixing of one or more aromatic and/or heteroaromatic diaminocarboxylic acids, of which at least part comprises phosphonic acid groups, in polyphosphoric acid to form a solution and/or dispersion, B) heating of the solution and/or dispersion obtainable according to step A) under inert gas at temperatures of up to 350° C.Type: ApplicationFiled: October 2, 2003Publication date: January 12, 2006Inventors: Oemer Uensal, Joachim Kiefer, Gordon Calundann, Michael Sansone, Brian Benicewicz, Eui Choe
-
Publication number: 20050053820Abstract: The present invention relates to a novel proton-conducting polymer membrane based on polyazoles which can, because of its excellent chemical and thermal properties, be used in a variety of ways and is particularly useful as polymer electrolyte membrane (PEM) to produce membrane electrode units for PEM fuel cells.Type: ApplicationFiled: August 29, 2002Publication date: March 10, 2005Inventors: Gordon Calundann, Michael Sansone, Oemer Uensal, Joachim Kiefer
-
Patent number: 6329654Abstract: A miniature multipole rod assembly, an apparatus and a technique for constructing such an assembly used for ion guide and mass spectrometers.Type: GrantFiled: December 22, 1998Date of Patent: December 11, 2001Assignee: Analytica of Branford, Inc.Inventors: Erol C. Gulcicek, Craig M. Whitehouse, Allan Burt, Michael Sansone, Clement Catalano
-
Patent number: 5326661Abstract: This invention provides novel polymers which contain discrete photoconductive and electrooptic moieties. The moieties may exist as part of the main chain of the polymer or as pendant side chains. The polymers have utility as transparent photorefractive media in photorefractive devices.Type: GrantFiled: November 13, 1991Date of Patent: July 5, 1994Assignee: Hoechst Celanese Corp.Inventors: Michael Sansone, Harris A. Goldberg, James L. McGinnis, Karsten Blatter, Ching F. Shu, Anthony East