This paper proposes a novel, low-cost, effective way to improve the thermal performance of electrical machines by extending a part of the back-iron into the slot. This modification helps in reducing the thermal resistance path from the center of the slot to the coolant, however its thermal benefits must be clearly evaluated in conjunction with the electromagnetic aspects, due to the higher iron losses and flux-leakage, and furthermore such an extension occupies space which would otherwise be allocated to the copper itself. Taking a case study involving an existing 75kW electric vehicle (EV) traction motor, the tradeoffs involving the losses, fluxleakage, output torque, torque-quality and the peak winding temperature with back-iron extension...
Thermal loading can induce mechanical stresses in the windings of electrical machines, especially th...
Funding Information: This work has been supported by the European Regional Development Fund within t...
An overview of current thermal challenges in transport electrification is introduced in order to und...
This paper proposes a novel, low-cost, effective way to improve the thermal performance of electrica...
The slot thermal condition is critical for thermal management of high performance electrical machine...
Back-iron Extension (BIE) is an effective thermal management technique which reduces the winding tem...
Intensive transport electrification is key to meet the future increasingly stringent emission target...
In electrical machines, a higher torque/force density can usually be achieved by increasing the curr...
Today, an extensive electrification is occurring in all industrial sectors, with a special interest ...
In electrical machine design, thermal management plays a key role in improving performance and reduc...
Concentrated windings are favourable in electric motors with a high torque density because of the ac...
A comprehensive thermal analysis of three different electrical machines is presented, with a view of...
This is an accepted manuscript of an article published by IEEE in IEEE Transactions on Industry Appl...
Performance of electric motors and losses in terms of heat and temperature are reviewed in this pape...
This paper investigates the sensitivity analysis of winding temperature to key parameters in electri...
Thermal loading can induce mechanical stresses in the windings of electrical machines, especially th...
Funding Information: This work has been supported by the European Regional Development Fund within t...
An overview of current thermal challenges in transport electrification is introduced in order to und...
This paper proposes a novel, low-cost, effective way to improve the thermal performance of electrica...
The slot thermal condition is critical for thermal management of high performance electrical machine...
Back-iron Extension (BIE) is an effective thermal management technique which reduces the winding tem...
Intensive transport electrification is key to meet the future increasingly stringent emission target...
In electrical machines, a higher torque/force density can usually be achieved by increasing the curr...
Today, an extensive electrification is occurring in all industrial sectors, with a special interest ...
In electrical machine design, thermal management plays a key role in improving performance and reduc...
Concentrated windings are favourable in electric motors with a high torque density because of the ac...
A comprehensive thermal analysis of three different electrical machines is presented, with a view of...
This is an accepted manuscript of an article published by IEEE in IEEE Transactions on Industry Appl...
Performance of electric motors and losses in terms of heat and temperature are reviewed in this pape...
This paper investigates the sensitivity analysis of winding temperature to key parameters in electri...
Thermal loading can induce mechanical stresses in the windings of electrical machines, especially th...
Funding Information: This work has been supported by the European Regional Development Fund within t...
An overview of current thermal challenges in transport electrification is introduced in order to und...