To address these issues, this study proposed an innovative approach integrating energy storage into fusion power supply system.
In order to reduce the impact of large-capacity fusion power supply on the power grid and make full use of the energy in superconducting magnets, this study proposed a hybrid and multi-element novel energy storage fusion power supply topology.
Fusion can potentially provide a safe, abundant, zero-carbon-emitting source of reliable primary energy. Once developed, first-generation fusion plants may likely use a combination of abundant deuterium (an isotope of hydrogen) and lithium as fuel.
An evaluation model has been established fusion power supply. In response to the escalating capacity and requirement of fusion devices for self-sustainable nuclear fusion reactions, a significant challenge arises in the form of severe power impact on the grid and redundancy in the power supply.
The novel fusion power supply can be applied in these projects, and the energy storage device it contains can be used to stabilize the periodic energy cliff generated during the fusion power generation process.
Once developed, first-generation fusion plants may likely use a combination of abundant deuterium (an isotope of hydrogen) and lithium as fuel. Commercial fusion energy has the potential to revolutionize the energy industry, help to achieve energy abundance and security, and help meet growing clean energy needs of the U.S. and the world.
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