Patents by Inventor John Vitucci

John Vitucci 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: 7749466
    Abstract: A compact catalytic reactor for Fischer-Tropsch synthesis (50) comprises a reactor module (70) defining a multiplicity of first and second flow channels arranged alternately, for carrying a gas mixture, and a coolant respectively. A removable gas-permeable catalyst structure (82) with a substrate for example of metal foil is provided in each flow channel in which the synthesis reaction is to occur. The reactor module (70) is enclosed within a pressure vessel (90), the pressure within the pressure vessel being arranged to be at a pressure substantially that of the high pressure reacting gas mixture. Consequently all the flow channels within the module are either at the pressure of their surroundings, or are under compression; no parts are under tension. This simplifies the design of the module, and increases the proportion of reactor volume which can be occupied by the catalyst.
    Type: Grant
    Filed: January 11, 2006
    Date of Patent: July 6, 2010
    Assignee: CompactGTL PLC
    Inventors: John Vitucci, Michael Joseph Bowe, Lawrence Andrew Stryker, Douglas Eugene Decker, Vinh N. Le
  • Publication number: 20080226517
    Abstract: A compact catalytic reactor (20) for reforming comprises a reactor module (70) to define a multiplicity of first and second flow channels arranged alternately, for carrying first and second gas flows, and a removable gas-permeable catalyst structure (80) with a substrate for example of metal foil is provided in each flow channel in which a chemical reaction is to occur. The reactor is for use with a first gas flow whose pressure is above ambient pressure and is no less than that of the second gas flow. The reactor module (70) may be formed of a stack of plates (72, 74, 75). The module (70) is enclosed within a pressure vessel (90), the pressure within the pressure vessel being arranged to be at a pressure substantially that of the first gas flow. Consequently no parts of the module (70) are under tension. This simplifies the design of the reactor module, and increases the proportion of its volume occupied by the catalyst.
    Type: Application
    Filed: December 19, 2005
    Publication date: September 18, 2008
    Applicant: GTL MICROSYSTEM AG
    Inventors: John Vitucci, Michael Joseph Bowe
  • Publication number: 20080193346
    Abstract: A compact catalytic reactor for Fischer-Tropsch synthesis (50) comprises a reactor module (70) defining a multiplicity of first and second flow channels arranged alternately, for carrying a gas mixture, and a coolant respectively. A removable gas-permeable catalyst structure (82) with a substrate for example of metal foil is provided in each flow channel in which the synthesis reaction is to occur. The reactor module (70) is enclosed within a pressure vessel (90), the pressure within the pressure vessel being arranged to be at a pressure substantially that of the high pressure reacting gas mixture. Consequently all the flow channels within the module are either at the pressure of their surroundings, or are under compression; no parts are under tension. This simplifies the design of the module, and increases the proportion of reactor volume which can be occupied by the catalyst.
    Type: Application
    Filed: January 11, 2006
    Publication date: August 14, 2008
    Inventors: John Vitucci, Michael Joseph Bowe