A Low-Voltage Ride-Through (LVRT) Method for Grid-Connected Power Electronic Inverters
This invention enables inverter interfaces of renewable energy sources to generate significantly larger active and reactive currents during LVRT conditions. The increase in the active and reactive powers reaches up to 100% and 15% of the maximum power generated by existing methods, respectively. This would make power systems substantially more resilient during disturbances, reducing the risk of grid instability and blackouts.
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Energy, Electrical & Computer Engineering, Smart CitiesHigh-performance aluminum battery
A next-gen rechargeable aluminum-ion battery technology
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Energy, Battery, CleantechCyber-resilient protection for energy grids
Logic for relays that can be used to significantly improve the cyber-resiliency of communication-assisted protection schemes.
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Energy, Cybersecurity, Smart CitiesMulti-Port Converter Structure for DC/DC Power Conversion
The invention is for a new power electronic converter topology suitable for modularly configured solar photovoltaic or battery storage applications
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Automotive, Battery, Energy, SmartphonesNanostructured Solar Selective Catalytic Supports
The vast majority of energy consumed by the human population is derived from burning fossil fuels because of their abundance and remarkably high energy density. The new catalytic supports prepared by Dr. Ozin’s lab offer a large improvement in yield of the gaseous process at ambient conditions, together with the discovery of both photochemical and photothermal activation in the system. This process resulted in a bold vision of a large scale photocatalytic energy plant, using sunlight to power the conversion of carbon dioxide and water to form natural gas and oxygen.
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