|Table of Contents|

Utilizing a Piezoelectric Fan for Heat Transfer Enhancement on Convex Surfaces(PDF)

南京师范大学学报(工程技术版)[ISSN:1006-6977/CN:61-1281/TN]

Issue:
2024年01期
Page:
18-25
Research Field:
动力工程及工程热物理
Publishing date:

Info

Title:
Utilizing a Piezoelectric Fan for Heat Transfer Enhancement on Convex Surfaces
Author(s):
Chen Xinzhu1Zhang Xia1Chen Ying1Wu Binbin1Li Xinjun12
(1.School of Energy and Mechanical Engineering,Nanjing Normal University,Nanjing 210023,China)
(2.Key Laboratory of Thermal Management and Energy Utilization of Aircraft,Ministry of Industry and Information Technology,Nanjing 210016,China)
Keywords:
piezoelectric fanconvex surfaceheat transfer enhancementstreamlinesimulation
PACS:
O643; X703
DOI:
10.3969/j.issn.1672-1292.2024.01.003
Abstract:
Using the dynamic mesh technique,a numerical investigation is performed to explore the heat transfer enhancement on convex surfaces by the vibrating piezoelectric fan. The effects of the relative curvature of the convex surfaces and configurations of the piezoelectric fan on the flow and heat transfer characteristics are investigated in detail. The results show that the relative curvature of the convex surface has a significant impact on the flow heat transfer performance. With the relative curvature,the adhesion effect of the wall jet is gradually enhanced,then the heat transfer performance of the convex surfaces is also enhanced. In addition,the configurations of the piezoelectric fan mainly affect the temperature distribution on the surface.A dumbbell-like distribution is shown when the piezoelectric fan is under longitudinal configuration. While under the transverse configuration,it presents an X-shaped distribution. In general,the piezoelectric fan under longitudinal configuration can improve the heat transfer performance of the convex surface with large curvature significantly.

References:

[1]MAASPURO M. Piezoelectric oscillating cantilever fan for thermal management of electronics and LEDs - A review[J]. Microelectronics Reliability,2016,63:342-353.
[2]HALES A,JIANG X. A review of piezoelectric fans for low energy cooling of power electronics[J]. Applied Energy,2018,215:321-337.
[3]郭修宇,王海峰,李海宁,等. 基于有限元的压电风扇建模与仿真分析[J]. 青岛大学学报(工程技术版),2019,34(4):44-47.
[4]ZHONG X L,CHAN K C,FU S C,et al. Enhancement of piezoelectric fan cooling by geometrical arrangements[J]. International Journal of Heat and Mass Transfer,2022,199:123479.
[5]谭蕾,谭晓茗,张靖周. 压电风扇激励非定常流动和换热特性数值研究[J]. 航空学报,2013,34(6):1277-1284.
[6]CHEN Y Y,LI J X,WANG Z W,et al. Unsteady flow characteristics of an oscillating piezoelectric fan blade at high Reynolds numbers[J]. Applied Sciences,2021,11(20):9510.
[7]孔岳,李敏,吴蒙蒙. 压电风扇非定常流场速度分布的数值研究[J]. 工程力学,2016,33(1):209-216.
[8]QIU Y L,WU C J,CHEN W F. Local heat transfer enhancement induced by a piezoelectric fan in a channel with axial flow[J]. Journal of Zhejiang University SCIENCE A(Applied Physics & Engineering),2020,21:1008-1022.
[9]KIMBER M,GARIMELLA S V,RAMAN A. Local heat transfer coefficients induced by piezoelectrically actuated vibrating cantilevers[J]. Journal of Heat Transfer,2007,129:1168-1176.
[10]CHEN Y Y,DING H,WANG Z W,et al. Experimental PIV investigation of the PZT fans array coupling effect at high Reynolds numbers[J]. Journal of Physics:Conference Series,2021,2108:012010.
[11]SUFIAN S F,FAIRUZ Z M,ZUBAIR M,et al. Thermal analysis of dual piezoelectric fans for cooling multi-LED packages[J]. Microelectrics Reliability,2014,54:1534-1543.
[12]LIN C N. Enhanced heat transfer performance of cylindrical surface by piezoelectric fan under forced convection conditions[J]. International Journal of Heat and Mass Transfer,2013,60:296-308.
[13]LI X J,CHEN W W,LU S H. Characterization of the thermal performance of multi piezoelectric fans for cooling a semi-cylindrical concave surface[J]. International Journal of Mechanical Sciences,2021,208:106672.
[14]EROL U,ÖZGÜR E. Thermal performance of horizontally/vertically oriented piezoelectric fans in varying fin-array width[J]. Heat Transfer Engineering,2021,42(15):1286-1302.
[15]HU J Y,JING C J. Investigation on thermal-hydraulic performance of the absorber plate using a piezoelectric fan in the solar air heater[J]. AIP Advances,2019,9:065209.
[16]EBRAHIMI N D,JU Y S. Heat transfer augmentation using scale-roughened surfaces for low-reynolds number flows generated by piezoelectric fans[C]//2019 18th IEEE Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems(ITherm). Las Vegas,NV,USA:IEEE,2019:1212-1219.
[17]HSU H P,CHENG C,LI H Y,et al. Thermal and fluid characteristics of single fin heat sink with piezoelectric cooling fan[J]. Journal of Flow Visualization and Image Processing,2019,26(1):57-78.
[18]SHYU J C,JHENG S K. Cooling performance and characteristics of metal piezoelectric fans in a heat sink-equipped handheld projector[J]. Microelectronics Reliability,2018,84:75-87.
[19]ABRAHAM S,VEDULA R P. Heat transfer distribution on a cylindrical convex surface due to obliquely impinging row of circular jets[J]. International Journal of Heat and Mass Transfer,2019,137:751-764.
[20]BOLEK A,BAYRAKTAR S. Flow and heat transfer investigation of a circular jet issuing on different types of surfaces[J]. Sādhanā,2019,44(12):242.
[21]TALAPATI R J,KATTI V V,HIREMATH N S. Local heat transfer characteristics of synthetic air jet impinging on a smooth convex surface[J]. International Journal of Thermal Sciences,2021,170(6):107143.
[22]ABRAHAM S,VEDULA R P. Effectiveness distribution measurements for a row of heated circular jets impinging on a cylindrical convex surface at different inclinations[J]. International Journal of Heat and Fluid Flow,2018,69:210-223.
[23]LI X J,TAN X M,ZHANG J Z,et al. Utilizing piezoelectric fan for heat transfer enhancement on corrugated surfaces[J]. Thermal Science and Engineering Progress,2022,29:101219.
[24]FAIRUZ Z M,SUFIAN S F,ABDULLAH M Z,et al. Effect of piezoelectric fan mode shape on the heat transfer characteristics[J]. International Communications in Heat and Mass Transfer,2014,52:140-151.
[25]TAN L,ZHANG J Z,TAN X M. Numerical investigation of convective heat transfer on a vertical surface due to resonating cantilever beam[J]. International Journal of Thermal Sciences,2014,80(1):93-107.

Memo

Memo:
-
Last Update: 2024-03-15