The paper describes the mechanical and thermal design of a high speed, high power density synchronous permanent magnet machine for an aero engine starter generator system with a power rating of 150 kW and maximum speed of 32,000 rpm. As both mechanical and thermal aspects have a direct impact on machine overall performance and weight reduction, a critical design optimisation was carried out. Intensive cooling is guaranteed by direct liquid oil-cooling of stationary components; a stator sleeve is also introduced into the airgap to prevent excessive windage. Thermal investigations were carried out by the means of Computational Fluid Dynamics (CFD) and Lumped Parameter Thermal Network (LPTN) analyses. Experimental validation also allowed the i...
In this paper, the design and analysis of a 30 kW, 30,000 r/min high-speed permanent magnet motor (H...
Nowadays, the reduction of aircraft emissions is one of the industrial targets with a horizon time u...
In recent years, advances in power electronics and materials have enabled innovative electric machin...
The paper describes the mechanical and thermal design of a high speed, high power density synchronou...
This work has analysed, designed, commissioned and validated the performance of a novel cooling syst...
This paper presents a comparative design study on Permanent Magnet (PM) rotor topologies for high sp...
Thesis Advisor: Professor Bulent SarliogluThis research report focusses on the thermal management of...
This paper will describe a high speed motor-drive system for an aircraft starter-generator. A perman...
Lecturepg. 137-148This paper reexamines some of the usual assumptions in deploying synchronous machi...
A high speed permanent magnet motor is designed for a flooded industrial pump. Oil in the pump is us...
In the thesis, methods for the thermal and mechanical analyses of high-speed PM electrical machines ...
The goal of this work is to specify and investigate suitability of a number of selected permanent ma...
The permanent magnet synchronous motor (PMSM) can be a suitable candidate for electrified propulsion...
For line start permanent magnet synchronous machines (LSPMSMs), the eddy current loss in the rotor, ...
This work deals with the initial design stage of a high-performance PM machine which is intended to ...
In this paper, the design and analysis of a 30 kW, 30,000 r/min high-speed permanent magnet motor (H...
Nowadays, the reduction of aircraft emissions is one of the industrial targets with a horizon time u...
In recent years, advances in power electronics and materials have enabled innovative electric machin...
The paper describes the mechanical and thermal design of a high speed, high power density synchronou...
This work has analysed, designed, commissioned and validated the performance of a novel cooling syst...
This paper presents a comparative design study on Permanent Magnet (PM) rotor topologies for high sp...
Thesis Advisor: Professor Bulent SarliogluThis research report focusses on the thermal management of...
This paper will describe a high speed motor-drive system for an aircraft starter-generator. A perman...
Lecturepg. 137-148This paper reexamines some of the usual assumptions in deploying synchronous machi...
A high speed permanent magnet motor is designed for a flooded industrial pump. Oil in the pump is us...
In the thesis, methods for the thermal and mechanical analyses of high-speed PM electrical machines ...
The goal of this work is to specify and investigate suitability of a number of selected permanent ma...
The permanent magnet synchronous motor (PMSM) can be a suitable candidate for electrified propulsion...
For line start permanent magnet synchronous machines (LSPMSMs), the eddy current loss in the rotor, ...
This work deals with the initial design stage of a high-performance PM machine which is intended to ...
In this paper, the design and analysis of a 30 kW, 30,000 r/min high-speed permanent magnet motor (H...
Nowadays, the reduction of aircraft emissions is one of the industrial targets with a horizon time u...
In recent years, advances in power electronics and materials have enabled innovative electric machin...