High reliability piezoelectric fan cooling for electric machine thermal management

Abstract: Electric machine thermal management is critical for the correct operation of high power density aerospace electrical machines. However, with increasing power density, a reliable, fault tolerant cooling mechanism needs to be developed. Piezoelectric fans are presented here as a potential, fault tolerant, forced cooling convective system that may further enhance the overall cooling of electric machines. Particle Image Velocimetry (PIV) techniques were implemented to map and quantify the flow fields generated by … Show more

“…The results in [21] demonstrated that the fins can neither be designed too thick nor too thin, because a large portion of the cooling channel is blocked in thick fins while thin fins will reduce the cross-sectional area available for air flow. Piezoelectric Fan Cooling was developed in [22,23], which indicated that an average convective heat transfer coefficient enhancement of 364.8% on the fin base and an enhancement of 53.6% on each of the fin side walls were attainable.…”

Advances in Thermal Management Technologies of Electrical Machines

“…The results in [21] demonstrated that the fins can neither be designed too thick nor too thin, because a large portion of the cooling channel is blocked in thick fins while thin fins will reduce the cross-sectional area available for air flow. Piezoelectric Fan Cooling was developed in [22,23], which indicated that an average convective heat transfer coefficient enhancement of 364.8% on the fin base and an enhancement of 53.6% on each of the fin side walls were attainable.…”

Advances in Thermal Management Technologies of Electrical Machines

Analysis and Design of a Piezoelectric Fan System for Advanced Cooling Applications