1
Frank Hershkowitz, Harry W Deckman, Robert P Reynolds, Constantine P Gonatas, John W Fulton, Leonard Schoenman, Jack I Ito: Rapid injection process and apparatus for producing synthesis gas (law 560). Exxon Research and Engineering Company, Jay Simon, March 23, 1999: US05886056 (143 worldwide citation)

A novel injector/reactor apparatus and an efficient process for the partial oxidation of light hydrocarbon gases, such as methane, to convert such gases to useful synthesis gas for recovery and/or subsequent hydrocarbon synthesis. Sources of a light hydrocarbon gas, such as methane, and oxygen or an ...


2
Frank Hershkowitz, Harry W Deckman, Robert P Reynolds, Constantine P Gonatas, John W Fulton, Leonard Schoenman, Jack I Ito, Leroy R Clavenna: Rapid injection catalytic partial oxidation process and apparatus for producing synthesis gas (law 562). Exxon Research and Engineering Company, Jay Simon, March 16, 1999: US05883138 (51 worldwide citation)

A novel injector/reactor apparatus and an efficient process for the partial oxidation of light hydrocarbon gases, such as methane, to convert such gases to useful synthesis gas for recovery and/or subsequent hydrocarbon synthesis. Sources of a light hydrocarbon gas, such as methane, and oxygen or an ...


3
Frank Hershkowitz, Harry W Deckman, Robert P Reynolds, Constantine P Gonatas, John W Fulton, Leonard Schoenman, Jack I Ito, Russell J Koveal, Lavanga R Veluswamy, James H Taylor, Alfredo M Lopez: Face-mixing fluid bed process and apparatus for producing synthesis gas. Exxon Research and Engineering Co, Jay Simon, November 9, 1999: US05980782 (45 worldwide citation)

A novel fluidized bed syngas (FBSG) injector/reactor apparatus and an efficient process for the partial oxidation and steam reforming of light hydrocarbon gases such as methane, to convert such gases to useful synthesis gas containing CO and H.sub.2 for recovery and/or subsequent hydrocarbon synthes ...


4
Frank Hershkowitz, Harry W Deckman, Robert P Reynolds, Constantine P Gonatas, John W Fulton, Leonard Schoenman, Jack I Ito: Distributed injection process and apparatus for producing synthesis gas. Exxon Research and Engineering Co, Jay Simon, August 10, 1999: US05935489 (43 worldwide citation)

A novel injector/reactor apparatus and an efficient process for the partial oxidation of light hydrocarbon gases, such as methane, to convert such gases to useful synthesis gas for recovery and/or subsequent hydrocarbon synthesis. Sources comprising a light hydrocarbon gas, such as methane, and oxyg ...


5
Frank Hershkowitz, Harry W Deckman, Robert P Reynolds, Constantine P Gonatas, John W Fulton, Leonard Schoenman, Jack I Ito, Leroy R Clavenna: Distributed injection catalytic partial oxidation process and apparatus for producing synthesis gas. Exxon Research and Engineering Co, Jay Simon, July 31, 2001: US06267912 (32 worldwide citation)

A novel injector/reactor apparatus and an efficient process for the partial oxidation of light hydrocarbon gases, such as methane, to convert such gases to useful synthesis gas for recovery and/or subsequent hydrocarbon synthesis. Sources of a light hydrocarbon gas, such as methane, and oxygen or an ...


6
Frank Hershkowitz, Harry W Deckman, Robert P Reynolds, Constantine P Gonatas, John W Fulton, Leonard Schoenman, Jack I Ito, Russell J Koveal, Costas A Coulaloglou: Multi-injector autothermal reforming process and apparatus for producing synthesis gas (law 565).. Exxon Research and Engineering Co, Jay Simon, November 9, 1999: US05980596 (29 worldwide citation)

A novel injector/reactor apparatus and an efficient process for the partial oxidation of light hydrocarbon gases, such as methane, to convert such gases to useful synthesis gas for subsequent hydrocarbon synthesis. Sources of a light hydrocarbon gas, such as methane, and oxygen or an oxygen-containi ...


7
Constantine P Gonatas: Methods and apparatus for imaging with diffuse light. The Trustees of the University of Pennsylvania, Duane Morris & Heckscher, June 18, 1996: US05528365 (16 worldwide citation)

Methods of imaging objects with diffused light. The methods preferably can comprise the steps of illuminating the object with a source of light which can be scattered by the object, collecting the scattered light with a detector from multiple positions surrounding the object, measuring a mean free p ...



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