The High Efficiency Megawatt Motor (HEMM) is being designed to meet the needs of Electrified Aircraft Propulsion (EAP). A preliminary design has been completed and risk reduction activities are being conducted in three key areas: cryogenic cooler design, superconducting rotor coil design and manufacturing, and stator thermal management. The key objective of HEMM is to establish a motor technology which simultaneously attains high specific power (>16kW/kg ratio to electromagnetic weight) and high efficiency (>98%) by judicious application of high temperature superconducting wire and integrated thermal management. Another important feature is to achieve the performance goals with an eye to aircraft integration constraints. An electromagnetic ...
NASA's all-electric X-57 airplane will utilize 14 electric motors, of which 12 are exclusively for l...
Electric motors are becoming increasingly utilized in aircraft, replacing traditionally mechanical o...
In recent years, advances in power electronics and materials have enabled innovative electric machin...
The High Efficiency Megawatt Motor (HEMM) is being designed to meet the needs of Electrified Aircraf...
NASA Glenn Research Center is developing a 1.4~MW high-efficiency electric machine for future electr...
Some of the challenges associated with developing electric aircraft propulsion systems include devel...
NASA Glenn Research Center is developing a 1.4 MW high-efficiency electric machine for future electr...
The evolution of aircraft has led into a large increase in the demand for electrically integrated su...
©2005 IEEE. Personal use of this material is permitted. However, permission to reprint/republish thi...
NASA Glenn Research Center is developing a 1.4~MW high-efficiency electric machine for future electr...
NASA Glenn Research Center is investigating hybrid electric and turboelectric propulsion concepts fo...
A 1 MW high-frequency air-core permanent-magnet (PM) motor, with power density over 13 kW/kg (8 hp/l...
More electric aircraft has been a subject of increasing discussions and research for more than ten y...
Development of high specific power electrical machine is a key step in the journey toward more/all e...
Enhanced cooling, coupled with novel designs and packaging of semiconductors, has revolutionized com...
NASA's all-electric X-57 airplane will utilize 14 electric motors, of which 12 are exclusively for l...
Electric motors are becoming increasingly utilized in aircraft, replacing traditionally mechanical o...
In recent years, advances in power electronics and materials have enabled innovative electric machin...
The High Efficiency Megawatt Motor (HEMM) is being designed to meet the needs of Electrified Aircraf...
NASA Glenn Research Center is developing a 1.4~MW high-efficiency electric machine for future electr...
Some of the challenges associated with developing electric aircraft propulsion systems include devel...
NASA Glenn Research Center is developing a 1.4 MW high-efficiency electric machine for future electr...
The evolution of aircraft has led into a large increase in the demand for electrically integrated su...
©2005 IEEE. Personal use of this material is permitted. However, permission to reprint/republish thi...
NASA Glenn Research Center is developing a 1.4~MW high-efficiency electric machine for future electr...
NASA Glenn Research Center is investigating hybrid electric and turboelectric propulsion concepts fo...
A 1 MW high-frequency air-core permanent-magnet (PM) motor, with power density over 13 kW/kg (8 hp/l...
More electric aircraft has been a subject of increasing discussions and research for more than ten y...
Development of high specific power electrical machine is a key step in the journey toward more/all e...
Enhanced cooling, coupled with novel designs and packaging of semiconductors, has revolutionized com...
NASA's all-electric X-57 airplane will utilize 14 electric motors, of which 12 are exclusively for l...
Electric motors are becoming increasingly utilized in aircraft, replacing traditionally mechanical o...
In recent years, advances in power electronics and materials have enabled innovative electric machin...