Heat pipes(HPs) are being extensively explored in motor cooling scenarios for enhanced cooling capacity. HPs are commonly bent to adapt to the compact structure of electrical machines, whereas the bending effect on motor cooling effectiveness still requires further investigation. This article analytically and experimentally studies the effect of the bending process, including bending angle and bending radius, on HP thermal properties. Cooling density is defined and derived to analyze the tradeoff between HP thermal performance and additional volume due to HP installation. Practical guidelines for feasible HP bending solutions under different space constraints are provided to achieve a higher cooling density. Finally, the HP bending effect o...
Thermal loading can induce mechanical stresses in the windings of electrical machines, especially th...
Thermal management is often considered a bottleneck in the pursuit of the next-generation electrical...
Back-iron Extension (BIE) is an effective thermal management technique which reduces the winding tem...
A comprehensive thermal analysis of three different electrical machines is presented, with a view of...
Heat pipes (HPs) are gaining increasing popularity in the propulsion motors of transportation electr...
The world is continually changing towards more energy efficient alternatives and less pollution. For...
In electrical machines, a higher torque/force density can usually be achieved by increasing the curr...
peer-reviewedContemporary electronic cooling applications can feature complex heat pipe configurat...
One of the key challenges for the electric vehicle industry is to develop high-power-density electri...
In electrical machine design, thermal management plays a key role in improving performance and reduc...
This paper presents analysis of eddy-current power loss in heat pipes (HPs) for integrated thermal m...
The thermal design of electrical machines has numerous influencing factors. This paper compares diff...
Concentrated windings are favourable in electric motors with a high torque density because of the ac...
Temperature rise due to energy losses in the windings can reduce the performance of a motor as well ...
The aim of this research is to increase the current density of electrical machines by improving the ...
Thermal loading can induce mechanical stresses in the windings of electrical machines, especially th...
Thermal management is often considered a bottleneck in the pursuit of the next-generation electrical...
Back-iron Extension (BIE) is an effective thermal management technique which reduces the winding tem...
A comprehensive thermal analysis of three different electrical machines is presented, with a view of...
Heat pipes (HPs) are gaining increasing popularity in the propulsion motors of transportation electr...
The world is continually changing towards more energy efficient alternatives and less pollution. For...
In electrical machines, a higher torque/force density can usually be achieved by increasing the curr...
peer-reviewedContemporary electronic cooling applications can feature complex heat pipe configurat...
One of the key challenges for the electric vehicle industry is to develop high-power-density electri...
In electrical machine design, thermal management plays a key role in improving performance and reduc...
This paper presents analysis of eddy-current power loss in heat pipes (HPs) for integrated thermal m...
The thermal design of electrical machines has numerous influencing factors. This paper compares diff...
Concentrated windings are favourable in electric motors with a high torque density because of the ac...
Temperature rise due to energy losses in the windings can reduce the performance of a motor as well ...
The aim of this research is to increase the current density of electrical machines by improving the ...
Thermal loading can induce mechanical stresses in the windings of electrical machines, especially th...
Thermal management is often considered a bottleneck in the pursuit of the next-generation electrical...
Back-iron Extension (BIE) is an effective thermal management technique which reduces the winding tem...