Large-scale electric aircraft is a disruptive technology to address the environmental impact of air travel. Fault current limitation is crucial to realise the safety and reliability of the electric aircraft, in particular for large-scale electric aircraft using DC distribution network. This paper investigates the behavior of the resistive SFCL under different cryogenic cooling systems including liquid nitrogen and helium gas circulation cooling systems for the electric aircraft DC distribution network. Electromagnetic and thermoelectric models were used to predict the characteristics of resistive SFCL. The simulation results demonstrate that it is promising to design resistive SFCL using liquid nitrogen cooling as well as helium gas circula...
To reduce emissions from the aviation industry and meet the targets set by different countries, rese...
Superconducting fault current limiters are novel equipment for grid engineers. It presents unique fe...
The use of liquid hydrogen as a fuel will be inevitable in the aviation of the future. This statemen...
Aircraft technology moves towards electrification in order to achieve environmentally friendly goals...
High Temperature Superconductors (HTS) are promising solution for high current applications such as ...
Electric aircraft has already become a reality, with demonstration flights at power ratings of less ...
The interest in hybrid electric aircraft has invigorated research into superconducting power network...
The distributed propulsion aircraft with HTS electrical system is a novel concept for future airline...
The NASA N3-X blended-wing body with turboelectric distributed propulsion concept is being studied t...
Superconductors have a potential application in future turboelectric distributed propulsion (TeDP) a...
Distributed propulsion concepts are promising in terms of improved fuel burn, better aerodynamic per...
It is crucial to achieve a high safety and reliability standard in future Electric Propulsion Aircra...
Climate change has spurred a shift to electric transportation, but aviation faces challenges with el...
With significant interest in the use of high-temperature superconducting (HTS) components in electri...
This article introduces the potential use of superconductivity in cryo-electrified aircraft as the a...
To reduce emissions from the aviation industry and meet the targets set by different countries, rese...
Superconducting fault current limiters are novel equipment for grid engineers. It presents unique fe...
The use of liquid hydrogen as a fuel will be inevitable in the aviation of the future. This statemen...
Aircraft technology moves towards electrification in order to achieve environmentally friendly goals...
High Temperature Superconductors (HTS) are promising solution for high current applications such as ...
Electric aircraft has already become a reality, with demonstration flights at power ratings of less ...
The interest in hybrid electric aircraft has invigorated research into superconducting power network...
The distributed propulsion aircraft with HTS electrical system is a novel concept for future airline...
The NASA N3-X blended-wing body with turboelectric distributed propulsion concept is being studied t...
Superconductors have a potential application in future turboelectric distributed propulsion (TeDP) a...
Distributed propulsion concepts are promising in terms of improved fuel burn, better aerodynamic per...
It is crucial to achieve a high safety and reliability standard in future Electric Propulsion Aircra...
Climate change has spurred a shift to electric transportation, but aviation faces challenges with el...
With significant interest in the use of high-temperature superconducting (HTS) components in electri...
This article introduces the potential use of superconductivity in cryo-electrified aircraft as the a...
To reduce emissions from the aviation industry and meet the targets set by different countries, rese...
Superconducting fault current limiters are novel equipment for grid engineers. It presents unique fe...
The use of liquid hydrogen as a fuel will be inevitable in the aviation of the future. This statemen...