Patents Assigned to TegIpco, LLC
  • Publication number: 20260042077
    Abstract: A system and method for converting a common hydrogen-based input fluid into an proton-rich ionic fluid (PRIF) comprising an overabundance of hydrogen H1+ protons is disclosed. This conversion occurs in the absence of elevated temperatures or pressures, so that the resulting output fluid is suitable for shipping or storage at Standard Temperature and Pressure (STP). Some practical usages for the PRIF include 1) AMMONIA MANUFACTURING WITHOUT HABER-BOSCH; 2) CRUDE OIL IMPROVEMENT (API LIFT); 3) MOLECULAR ENHANCEMENT OF HYDROCARBON; and 4) DESULFURIZATION (distillate upgrade).
    Type: Application
    Filed: June 27, 2025
    Publication date: February 12, 2026
    Applicant: TegIPco, LLC
    Inventors: Nicholas Joseph Wilson Arvanitakis, Chrisanthos Arvanitakis
  • Patent number: 12473658
    Abstract: Various embodiments and methods of operation and configuring of power converters for providing a controlled amount of AC output current even as a particular load may at times approach zero resistance are disclosed. The power converters are configured to tolerate a near-short or full-short circuit load for a brief time, without disabling or tripping any safety-interrupts. The various embodiments are configured to achieve electrical requirements needed for specific chemical reforming processes, such as vaporization of an ionic fluid. The various embodiments unlocks electrolysis using AC power, thereby enabling AC electrolysis in common fluids.
    Type: Grant
    Filed: August 25, 2024
    Date of Patent: November 18, 2025
    Assignee: TegIPco, LLC
    Inventors: Nicholas Joseph Wilson Arvanitakis, Chrisanthos Arvanitakis, Brad Peeters, Nick Martin, Chad Collins
  • Publication number: 20250250702
    Abstract: Various embodiments and methods of operation and configuring of power converters for providing a controlled amount of AC output current even as a particular load may at times approach zero resistance are disclosed. The power converters are configured to tolerate a near-short or full-short circuit load for a brief time, without disabling or tripping any safety-interrupts. The various embodiments are configured to achieve electrical requirements needed for specific chemical reforming processes, such as vaporization of an ionic fluid. The various embodiments unlocks electrolysis using AC power, thereby enabling AC electrolysis in common fluids.
    Type: Application
    Filed: August 25, 2024
    Publication date: August 7, 2025
    Applicant: TegIPco, LLC
    Inventors: Nicholas Joseph Wilson Arvanitakis, Chrisanthos Arvanitakis, Brad Peeters, Nick Martin, Chad Collins
  • Publication number: 20240383746
    Abstract: A system and method for converting a common hydrogen-based input fluid into an output fluid comprising an overabundance of hydrogen H1 atoms is disclosed. This conversion occurs in the absence of elevated temperatures or pressures, so that the resulting output fluid is suitable for shipping or storage at Standard Temperature and Pressure (STP). A vaporizer system and method for transforming the output fluid into H2 gas is also disclosed.
    Type: Application
    Filed: April 15, 2024
    Publication date: November 21, 2024
    Applicant: TegIpco, LLC
    Inventors: Nicholas Joseph Wilson Arvanitakis, Chrisanthos Arvanitakis, Nick Martin, Chad Collins
  • Publication number: 20240384420
    Abstract: A system and method for converting a common hydrogen-based input fluid into an output fluid comprising an overabundance of hydrogen H1 atoms is disclosed. This conversion occurs in the absence of elevated temperatures or pressures, so that the resulting output fluid is suitable for shipping or storage at Standard Temperature and Pressure (STP). A vaporizer system and method for transforming the output fluid into H2 gas is also disclosed.
    Type: Application
    Filed: April 15, 2024
    Publication date: November 21, 2024
    Applicant: TegIpco, LLC
    Inventors: Nicholas Joseph Wilson Arvanitakis, Chrisanthos Arvanitakis, Nick Martin, Chad Collins