• 제목/요약/키워드: Piezoelectric fan

검색결과 23건 처리시간 0.212초

피에조 팬 냉각 성능 측정을 위한 실험장치 구축 (Experimental Facility for Measuring the Cooling Performance of a Piezoelectric Fan)

  • 오명훈;박수현;고재익;최민석
    • 한국가시화정보학회지
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    • 제16권3호
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    • pp.52-58
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    • 2018
  • In this study, an experimental facility has been built to measure the cooling performance of a piezoelectric fan. The facility is composed of a heat source made of $50{\mu}m$ Ni-Cr foil, a piezoelectric fan and a rotary fan for cooling the heat source. For two cases where the foil is vertical or horizontal, the surface temperature on the foil has been measured by an IR camera with and without cooling and the cooling performance of both fans has been analyzed. With cooling by both fans, the rotary fan lowers the surface temperature of the foil as a whole, while the piezoelectric fan lowers the surface temperature at the center of the foil locally. It is also found that the cooling effectiveness of the piezoelectric fan is higher on the horizontal foil than on the vertical foil because the natural convection interferes with the jet from the piezoelectric fan.

PZN-PZ-PT 세라믹스 압전팬의 특성에 관한 연구 (A study on characteristics of piezoelectric fan in PZN-PZ-PT ceramics)

  • 최형욱;백동수;윤현상;이두희;김규수;박창엽
    • E2M - 전기 전자와 첨단 소재
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    • 제8권1호
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    • pp.1-5
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    • 1995
  • In this study, a piezoelectric fan was fabricated using piezoelectric element of 0.13PZN-0.41PZ-0.46PT prepared by extruding method. The sizes of the piezoelectric element and the piezoelectric fan were adjust to utilize commercial ac source(100V, 6OHz). The size of the piezoelectric element was $0.26{\times}19.5{\times}45$mm and the resonant frequency and the electromechanical coupling coefficient were 31.26KHz, 31.58% respectively. The size of the piezoelectric fan was $0.62{\times}19.5{\times}78.5$mm and the maximum displacement was 40mm.

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압전세라믹 냉각팬에 대한 수치해석적 연구 (A Numerical Analysis in Piezoelectric Fan Systems)

  • 박지호;김은필
    • Journal of Advanced Marine Engineering and Technology
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    • 제35권8호
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    • pp.994-1000
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    • 2011
  • 본 논문은 압전소자의 주기적인 발진운동을 탄성 변환하여 유체유동을 유발하는 압전소자 팬의 수치해석 모델에 대한 연구이다. LED 모듈 등의 고밀도 열이 발생하는 소형 전자장치의 냉각에 적용이 가능한 압전소자 냉각팬의 성능 향상을 위해 CFD 도구를 이용하였다. 본 논문의 결과는 압전소자의 길이 5cm와 방열판의 길이 3cm라는 비율이 효과적이었다. 이는 기하학적으로 비슷한 형태를 가지고 다른치수를 가지는 모델에서 기초적인 설계를 하는데 도움이 될 것이다.

압전세라믹 냉각팬에 의한 강제 공랭 모듈 주위의 유체유동과 열전달 특성 (Fluid Flow and Heat Transfer Characteristics around a Surface-Mounted Module Cooled by Forced Air Flow by Piezoelectric Cooling Fan)

  • 박규진;박상희
    • 대한기계학회:학술대회논문집
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    • 대한기계학회 2003년도 추계학술대회
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    • pp.272-277
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    • 2003
  • This paper reports the fluid flow and heat transfer around a module cooled by forced air flow generated by a piezoelectric(PZT) cooling fan. A flexible PZT fan with distortion in a fluid transport system of comparatively simple structure which was mounted on a PCB in a parallel-plate channel($450{\times}80{\times}700mm^3$) accelerates surrounding fluid locally. Input voltages of 20-100V and a resonance frequency of 23Hz were used to vibrate the cooling fan. Input power to the module was 4W. The cooling effect using a PZT fan was larger than that of free convection. Fluid flow around the module were visualized by using PIV system. The temperature distribution around heated module were visualized by using liquid crystal film(LCF). We found that the flow type was y-shaped and the cooling effect was increased by the wake generated by a piezoelectric cooling fan.

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압전팬의 제작과 평가 (Fabrication and evaluation of a piezoelectric fan)

  • 김대영;최재업;정수태
    • 한국전기전자재료학회:학술대회논문집
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    • 한국전기전자재료학회 2003년도 하계학술대회 논문집 Vol.4 No.2
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    • pp.693-696
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    • 2003
  • Piezoelectric ceramics were made by a doctor blade methode and piezoelectric fans were fabricated by sandwiched a slim and long metal between two layers of ceramics. A maximum displacement of piezoelectric fan occurs in the resonance frequency of a long metal and the resonance frequency of them is in inverse proportion to the square of a length of metal. The piezoelectric fan made from a wide and thin piezoelectric ceramics($13{\times}0.2{\times}30mm^3$) showed a maximum displacement in all samples, and the maximum displacement was about 20mm in a commercial power (200V, 60Hz of sine wave).

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Optimal Design of Piezoelectric Cantilever Fan by Three-Dimensional Finite Element Analysis

  • Kim Byoung-Jai;Rho Jong-Seok;Jung Hyung-Kyo
    • KIEE International Transaction on Electrical Machinery and Energy Conversion Systems
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    • 제5B권1호
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    • pp.90-94
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    • 2005
  • As the structure of the piezoelectric bimorph cantilever becomes increasingly more complicated, a more accurate and efficient analysis of piezoelectric media is needed. In this paper, the piezoelectric transducer is analyzed by using the three-dimensional finite element method. The validity of the three-dimensional finite element routine is confirmed by comparing the experimental result. The resonance characteristics, such as resonance frequency and anti-resonance frequency, of the piezoelectric cantilever are calculated by the experimentally verified three dimensional finite element method. Subsequently, the characteristics, such as mechanical displacement and impedance, are calculated at the resonance frequency. Besides, to design the piezoelectric bimorph cantilever shape that maximizes displacement at the tip, the ES (Evolution Strategy) algorithm is applied. Finally, optimal design for the fan of the piezoelectric cantilever is fulfilled to obtain maximum displacement at the tip. From these results, the application potentiality of the piezoelectric bimorph cantilever fan is identified.

압전세라믹 냉각홴에 의한 강제 공랭 모듈 주위의 열전달특성 (Heat Transfer Characteristics Around a Surface-Mounted Module Cooled by Piezoelectric Fan)

  • 박상희;박규진;최성대
    • 대한기계학회논문집B
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    • 제28권7호
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    • pp.780-788
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    • 2004
  • This paper reports the fluid flow and heat transfer around a module cooled by forced air flow generated by a piezoelectric(PZT) cooling fan. The fluids are locally accelerated by a flexible PZT fan which deflects inside a fluid transport system of comparatively simple structure mounted on a PCB in a parallel-plate channel(450${\times}$80${\times}$700㎣). Input voltages of 20-100V and a resonance frequency of 23㎐ were used to vibrate the cooling fan. Input power to the module was 4W. The fluid flow around the module was visualized by using PIV system. The temperature distributions around a heated module were visualized by using liquid crystal film(LCF). The cooling effect using a PZT fan was independent of the vent area ratios at the channel inlet and was similar to the forced convection cooling. We found that the flow type was Y-shape and the cooling effect was increased by the wake generated by a piezoelectric cooling fan.

전자기기 냉각용 압전팬의 열전달 향상 (Heat Transfer Enhancement of a Piezoelectric Fan for Cooling of Electronic Devices)

  • 김은필;윤정인
    • 동력기계공학회지
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    • 제18권1호
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    • pp.14-21
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    • 2014
  • Piezoelectric fans are thin elastic beams whose vibratory motion is actuated by means of a piezoelectric material bonded to the beam. These fans have found use as a means to enhance convective heat transfer while requiring only small amounts of power. This study presents new types of models with heat sink having air passage and investigates experimentally their heat transfer characteristics. From the comparison results for four models, the heat transfer coefficients of model 1 are approximately 44~66% higher than those of the reference model 0. The model 1 show the best overall performance about heat transfer and cooling capability. As shown in above results, it is necessary to design the heat sink with air pass for cooling of electronic devices, in order to increase the convective heat transfer coefficient of a piezoelectric fan for electronic cooling.

밀폐공간 내에서 압전세라믹 냉각홴의 열성능에 대한 실험적 연구 (Experimental Study on the Thermal Performance of Piezoelectric Fan in an Enclosure)

  • 박상희;최문철
    • 대한기계학회논문집B
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    • 제30권12호
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    • pp.1173-1180
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    • 2006
  • This study deals with fluid flow and heat transfer around a module cooled by forced air flow generated by a piezoelectric(PZT) fan in an enclosure. The fluid flows were generated by a flexible PZT fan which deflects inside a fluid transport system of comparatively simple structure mounted on a PCB in an enclosure($270\times260\times90mm^3$). Input voltages of 30V and 40V, and a resonance frequency of 28Hz were used to vibrate the cooling fan. Input power to the module was 4W. The height in an enclosure was changed 23$\sim$43mm. The fluid flow around the module was visualized by using PIV system. The temperature distributions around a heated module were visualized by using liquid crystal film. As the height in an enclosure and the input voltage of PZT fan increased, the cooling effect of module using a PZT fan increased. We found that the flow type was T- or Y-shape and the cooling effect was increased by the wake generated by a PZT fan.