Grid- and Energy Components
Our research area is dedicated to the development of superconducting components for energy technology. These include cables, transformers, current limiters, and new components which become more efficient due to superconductivity or are made possible by the special properties of superconductivity.
Superconducting transformers can not only be more efficient than conventional systems, but due to the current-limiting properties of superconductors, they can also ensure better stability of the power grid.
Superconducting cables are characterized by a higher energy density and lower losses compared to conventional cables. Developments can help to upgrade existing cable routes to meet the increased power requirements, e.g. in urban areas.
The coupling of supply networks increases the stability of the network, but also has disadvantages in the event of a fault (short circuit). Due to their properties, superconducting current limiters can achieve an almost loss-free coupling of grids and at the same time reduce the disadvantageous reduction of the impedance in case of a fault.
You can find further informations here.
The intrinsic properties of the superconductors can also be used in other power engineering applications such as DC busbars.
Portrait | Name | Phone | Room | |
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Fillinger, Holger | holger fillinger ∂ kit edu | +49 721 608-24184 | CN 410 219 | |
Gehring, Rainer | rainer gehring ∂ kit edu | +49 721 608-24187 | CN 410 220 | |
Kienzler, Andreas | kienzler ∂ kit edu | +49 721 608-23918 | CN 416 207 | |
Kudymow, Andrej | andrej kudymow ∂ kit edu | +49 721 608-24198 | CN 410 | |
Noe, Mathias | mathias noe ∂ kit edu | +49 721 608-23500 | ||
Pham, Quoc Hung | quoc pham ∂ kit edu | +49 721 608-23710 | 416 227 | |
8 additional persons visible within KIT only. |