Search Results - malik+tahiyat

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Dielectric Barrier Discharge Plasma System for in-situ Hydrogen Peroxide Production

Reference #: 01599 The University of South Carolina is offering licensing opportunities for Dielectric Barrier Discharge Plasma System for in-situ Hydrogen Peroxide Production Background: Most of the hydrogen peroxide (H2O2) vapor generators, which exist in the market merely use flash vaporization of the liquid form of H2O2 to form H2O2 vapor. Some...

Published: 11/18/2022 | Inventor(s): Malik Tahiyat, Tanvir Farouk

Keywords(s): Dielectric barrier discharge plasma, Hydrogen peroxide, Laser-induced fluorescence, OH radicals, photofragmentation laser induced fluorescence

Category(s): Engineering and Physical Sciences

Misty Plasma Dielectric Barrier Discharge Plasma System for Disinfection

Reference #: 01600 The University of South Carolina is offering licensing opportunities for Misty Plasma Dielectric Barrier Discharge Plasma System for Disinfection Background: Approximately 1.7 million healthcare-associated infections occur each year in the U.S., killing 98,000 patients. COVID-19 has revealed further weaknesses in the preparedness...

Published: 4/2/2024 | Inventor(s): Malik Tahiyat, Tanvir Farouk, Shamia Hoque, Traci Testerman

Keywords(s): cold atmospheric plasma, dielectric barrier discharge, disinfection, sterilization, water vapor plasma

Category(s): Biomedical and Life Sciences, Health Sciences

Siloxane Removal Off Landfill Gas Using Dielectric Barrier Discharge Plasma

Reference #: 01437 The University of South Carolina is offering licensing opportunities for Siloxane Removal off Landfill Gas Using Dielectric Barrier Discharge Plasma Background: U.S. regulations have set a target of generating 25% of the energy from renewable sources by 2025, which is also a prime motivation of using LFG (Landfill Gas) as an alternative...

Published: 9/4/2022 | Inventor(s): Tanvir Farouk, Shamia Hoque, Malik Tahiyat

Keywords(s): dielectric barrier discharge, GCMS, landfill gas, nonequilibrium plasma, siloxane, volatile organosilicate, XPS

Category(s): Engineering and Physical Sciences, Energy, Environmental and Sustainability

Water Vapor Quantification Methodology During Drying of Spent Nuclear Fuel

Reference #: 01367The University of South Carolina is offering licensing opportunities for Water Vapor Quantification Methodology during Drying of Spent Nuclear FuelBackground:Spent fuel rods from nuclear reactors are initially kept in spent fuel pools to allow radioactivity to die away to levels that these rods can be stored in dry cask. After being...

Published: 5/27/2021 | Inventor(s): Tanvir Farouk, Malik Tahiyat, Travis Knight

Keywords(s):

Category(s): Engineering and Physical Sciences, Energy