The power density of electrical machines for transport applications has become a critical aspect and target of optimization. This paper looks at the development of an intelligent, rapid, flexible, and multidomain tool to aid for system-level optimization of electrical machines within next-generation high power density applications. The electromagnetic, thermal, and mechanical aspects are wholly integrated, thus enabling the optimization including the nonactive mass. The implementation and overall architecture of the tool are described, and using a case study drawn fromthe aerospace industry, the tool is used to compare the power density of various surface permanentmagnet topologies including single airgap and dual airgapmachines, highlighti...
The design optimization methods described in this paper are employing an ultrafast computationally e...
Permanent magnet synchronous machines provide many dramatic electromagnetic performances such as hig...
A large-scale finite element model-based design optimization algorithm is developed for improving th...
The power density of electrical machines for transport applications has become a critical aspect and...
The power density of electrical machines for transport applications has become a critical aspect and...
The power density of electrical machines required for transport applications has become a critical a...
The power density of electrical machines required for more-electric and hybrid-electric aircraft has...
A 1 MW high-frequency air-core permanent-magnet (PM) motor, with power density over 13 kW/kg (8 hp/l...
This paper proposes a new high power density permanent magnet (PM) motor design for traction applica...
With the ambitious targeted emissions reduction, the aircraft industry is moving towards drastically...
International audienceThis paper presents an analytical design method to improve the power density o...
Development of high specific power electrical machine is a key step in the journey toward more/all e...
A high-speed electric motor is developed as part of a high-density traction system that includes the...
In several industrial sectors, induction machines are being replaced with permanent magnet based alt...
There has been a growing need for high specific power electrical machines for a wide range of applic...
The design optimization methods described in this paper are employing an ultrafast computationally e...
Permanent magnet synchronous machines provide many dramatic electromagnetic performances such as hig...
A large-scale finite element model-based design optimization algorithm is developed for improving th...
The power density of electrical machines for transport applications has become a critical aspect and...
The power density of electrical machines for transport applications has become a critical aspect and...
The power density of electrical machines required for transport applications has become a critical a...
The power density of electrical machines required for more-electric and hybrid-electric aircraft has...
A 1 MW high-frequency air-core permanent-magnet (PM) motor, with power density over 13 kW/kg (8 hp/l...
This paper proposes a new high power density permanent magnet (PM) motor design for traction applica...
With the ambitious targeted emissions reduction, the aircraft industry is moving towards drastically...
International audienceThis paper presents an analytical design method to improve the power density o...
Development of high specific power electrical machine is a key step in the journey toward more/all e...
A high-speed electric motor is developed as part of a high-density traction system that includes the...
In several industrial sectors, induction machines are being replaced with permanent magnet based alt...
There has been a growing need for high specific power electrical machines for a wide range of applic...
The design optimization methods described in this paper are employing an ultrafast computationally e...
Permanent magnet synchronous machines provide many dramatic electromagnetic performances such as hig...
A large-scale finite element model-based design optimization algorithm is developed for improving th...