1
Harry W Deckman, Bruce T Kelley, Eugene R Thomas, Ronald R Chance, Paul S Northrop, Edward W Corcoran Jr: Removal of a target gas from a mixture of gases by swing adsorption with use of a turboexpander. ExxonMobil Research and Engineering Company, David M Weisberg, September 10, 2013: US08529664 (41 worldwide citation)

The separation of a target gas selected from a high pressure gas mixture containing said target gas as well as a product gas using a swing adsorption process unit. A turboexpander is used upstream of the swing adsorber to reduce the pressure of the high pressure gas mixture. A compressor is optional ...


2
Harry W Deckman, Ronald R Chance, Edward W Corcoran Jr, David L Stern: Low mesopore adsorbent contactors for use in swing adsorption processes. ExxonMobil Research and Engineering Company, Bruce M Bordelon, June 14, 2011: US07959720 (41 worldwide citation)

The present invention relates to engineered structured adsorbent contactors for use in pressure swing adsorption and thermal swing adsorption processes. Preferably, the contactors contain engineered and substantially parallel flow channels wherein 20 volume percent or less of the open pore volume of ...


3
Harry W Deckman, Bruce T Kelley, Frank Hershkowitz, Ronald R Chance, Paul S Northrop, Edward W Corcoran Jr: from flue gas using a parallel channel contractor, Temperature swing adsorption of CO. ExxonMobil Research and Engineering Company, Hank L Naylor, Bruce M Bordelon, May 24, 2011: US07947120 (39 worldwide citation)

The adsorption of CO2 from flue gas streams using temperature swing adsorption. Adsorbent contactors are used in the temperature swing adsorption unit that contain a plurality of substantially parallel channels comprised of or coated with an adsorbent material that is selective for adsorbing CO2 fro ...


4
Bruce T Kelley, Paul S Northrop, Ronald R Chance, Harry W Deckman, Edward W Corcoran Jr, Eugene R Thomas: Removal of heavy hydrocarbons from gas mixtures containing heavy hydrocarbons and methane. ExxonMobil Research and Engineering Company, Bruce M Borcelon, David M Weisberg, September 10, 2013: US08529662 (36 worldwide citation)

A process for the separation of one or more heavy hydrocarbon gases from a gas mixture containing heavy hydrocarbon gas components and methane. The process is conducted in swing adsorption apparatus containing adsorbent contactor having a plurality of flow channels and wherein 20 volume percent or l ...


5
Sebastian C Reyes, Harry W Deckman, Ronald R Chance, Gregory J DeMartin, Frank Hershkowitz, Eugene R Thomas, Paul S Northrop, Bruce T Kelley, Edward W Corcoran Jr: Process for removing a target gas from a mixture of gases by swing adsorption. ExxonMobil Research and Engineering Company, Bruce M Bordelon, David M Weisberg, September 10, 2013: US08529663 (26 worldwide citation)

The present invention relates the separation of a target gas from a mixture of gases through the use of engineered structured adsorbent contactors in pressure swing adsorption and thermal swing adsorption processes. Preferably, the contactors contain engineered and substantially parallel flow channe ...


6
Harry W Deckman, Ronald R Chance, Sebastian C Reyes, Gregory J DeMartin, Eugene R Thomas, Paul S Northrop, Bruce T Kelley, Edward W Corcoran Jr: S from gas mixtures by swing adsorption with low mesoporosity adsorbent contactors, , or H, , N, Removal of CO. ExxonMobil Research and Engineering Company, May 21, 2013: US08444750 (26 worldwide citation)

The present invention relates to the separation of one or more of CO2, N2, and H2S gas components from a gas mixture containing at least a second gas using a swing adsorption process unit. The adsorbent contactors of the swing adsorption process unit are engineered structured adsorbent contactors ha ...


7
John P Dismukes, Jack W Johnson, Edward W Corcoran Jr, Joseph Vallone: Synthesis of microporous ceramics. Exxon Research and Engineering Company, Jay Simon, Joseph J Dvorak, October 8, 1996: US05563212 (11 worldwide citation)

The present invention provides for microporous ceramic materials having a surface area in excess of 50 m.sup.2 /gm and an open microporous cell structure wherein the micropores have a mean width of less than 20 Angstroms and wherein said microporous structure comprises a volume of greater than about ...


8
Harry W Deckman, Preeti Kamakoti, Peter I Ravikovitch, Bruce T Kelley, Paul Scott Northrop, Peter C Rasmussen, Paul Lawrence Tanaka, Martin N Webster, Wieslaw Jerzy Roth, Edward W Corcoran: Method and apparatus for removal of oil from utility gas stream. ExxonMobil Upstream Research Company, ExxonMobil Upstream Research Company Law Department, September 8, 2015: US09126138 (10 worldwide citation)

The present application is directed to a method and system for preparing gaseous utility streams from gaseous process streams, particularly, removing oil contamination from such streams prior to use in a dry gas seal. The methods and systems may include at least one kinetic swing adsorption process ...


9
Preeti Kamakoti, Edward W Corcoran, Ronald R Chance, Sebastian C Reyes: Identification and use of an isomorphously substituted molecular sieve material for gas separation. ExxonMobil Research and Engineering Company, David M Weisberg, Andrew T Ward, January 27, 2015: US08939014 (10 worldwide citation)

The identification, synthesis, and use of an isomorphously substituted molecular sieve material having structural frameworks substituted with a preselected substitution element for a framework element of the molecular sieve material can result in a preferred transport controlling window size range f ...


10
Edward W Corcoran Jr, David E W Vaughan, Paul E Eberly Jr: Stannosilicates and preparation thereof (C-2417). Exxon Research and Engineering Company, Jay Simon, May 5, 1992: US05110571 (10 worldwide citation)

Highly crystalline stannosilicates are formed by reacting a tin salt with a source of silica and a hydroxide of a Group IA or Group IIA metal or an amine.