Energy
The University of Tennessee Research Foundation's "Energy" category showcases innovations like high-frequency wireless power transmission coils with self-resonant architecture and bimetallic nanosponge electrodes for nitrogen-to-ammonia electrochemical reduction. These technologies aim to advance energy transmission, storage, and sustainability.
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Semi-Analytical Method to Solve AC Power Flows
Researchers at the University of Tennessee have developed a non-iterative, semi-analytical method based on a multi-dimensional holomorphic embedding t ...
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Gate-sensing Overcurrent Protection Scheme for GaN Transistors.
Researchers at the University of Tennessee have developed a power converter circuit using wide bandgap FETs which employs a control mechanism that mea ...
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Current Limiting Control Scheme in a Solid-State Circuit Breaker (SSCB)
Researchers at the University of Tennessee have developed a novel control scheme designed to enlarge the current limiting capacity of SSCBs without ad ...
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Soft-Metal Packaging for Cryogenic-Resistant Power Modules
Researchers at the University of Tennessee have proposed a new packaging method for power modules that remains flexible even at cryogenic temperatures ...
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Decentralized and Coordinated V-f Control for Islanded Microgrids
Researchers at the University of Tennessee, Oklahoma State University and Missouri S&T have developed a decentralized control method for coordinat ...
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Reducing Magnetic-Leakage Eddy Current Loss in Transformers/Inductors
Researchers at the University of Tennessee have developed a novel 2D ribboned magnetic-core lamination structure and a novel ferrite-shielding pattern ...