Title :
Cooling airflow in unidirectional ventilated open-type motor for electric vehicles
Author :
Nakahama, Takafumi ; Suzuki, Katsumi ; Hashidume, Shozo ; Ishibashi, Fuminori ; Hirata, Masami
Author_Institution :
Electr. & Mech. Application Syst., Toshiba Corp., Tokyo
Abstract :
In this paper, the cooling airflow in a unidirectional ventilated open-type motor for electric vehicles (EV) was studied. Numerical fluid analysis was performed on the airflow in the motor through a ventilation path outside the stator iron core inside the frame. It is confirmed that there was a flow separation where air did not flow along the path surfaces. This was observed in a flow visualization experiment using water instead of air. We propose a new structure to prevent air separation and confirm its effectiveness by a visualization experiment. It is also shown that another structure with paths both inside and outside the stator iron core in the frame improves the motor´s cooling performance. These structures are effective for EV motor downsizing
Keywords :
brushless DC motors; computational fluid dynamics; cooling; electric motors; electric vehicles; flow visualisation; numerical analysis; permanent magnet motors; ventilation; air separation prevention; cooling airflow; electric vehicles; flow separation; flow visualization; numerical fluid analysis; stator iron core; unidirectional ventilated open-type motor; ventilation path; Cooling; Electric vehicles; Hybrid electric vehicles; Internal combustion engines; Iron; Performance analysis; Stator cores; Temperature; Ventilation; Visualization; Airflow; downsizing; electric vehicle (EV); flow analysis; flow visualization experiment; main motor; unidirectional ventilation; weight reduction;
Journal_Title :
Energy Conversion, IEEE Transactions on
DOI :
10.1109/TEC.2006.877364
