A Study of an Effective Heat-Dissipating Piezoelectric Fan for High Heat Density Devices

Lin, Chien Nan; Jang, Jiin Yuh; Leu, Jin Sheng

doi:10.3390/en9080610

Cited by 14 publications

(11 citation statements)

References 20 publications

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“…Lin et al [42] and Li et al [43] performed similar experiments and simulations to show how the beam shape affects the Fig. 9 The schematic of the turboblower [32] Fig.…”

Section: Reciprocatingmentioning

confidence: 99%

Recent Developments in Air Pumps for Thermal Management of Electronics

Wen

2021

Journal of Electronic Packaging

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For electronics, poor thermal management could cause severe mechanical and electrical failures. Forced convective air cooling, i.e., flowing air over a hot surface, is one of the most efficient and economical solutions to manage thermal issues of electronics. Air pump is used to initiate and sustain airflow required in forced convection. This paper reviews both the mechanical and the nonmechanical air pumps that have been using widely in current electronics or have a great potential in future electronics. The mechanical pumps include axial fans, blowers, beam fans, and diaphragm pumps, while the nonmechanical pump specifically focuses on electrohydrodynamic pumps. This paper presents the working principle first and then the recent developments, including the pump itself (design, characteristics, etc.) and the applications in thermal management (placement, integration, etc.). In the end, this paper conducts the strength analysis (flow rate, pressure, noise, flexibility, and reliability) among the reviewed five types of air pumps.

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“…Lin et al [42] and Li et al [43] performed similar experiments and simulations to show how the beam shape affects the Fig. 9 The schematic of the turboblower [32] Fig.…”

Section: Reciprocatingmentioning

confidence: 99%

Recent Developments in Air Pumps for Thermal Management of Electronics

Wen

2021

Journal of Electronic Packaging

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“…where qhb, qs, qc, and qr are calculated using Equations (5)- (8), respectively. qhb is the heat flux from the microheat pipe to the radiative plate, qs is the absorbed atmospheric radiation from the aerosphere to the radiative plate, qc is the convective heat flux from the radiative plate to the ambient air, and qr is the radiant heat flux from the radiative plate to the outer environment.…”

Section: Heat Balance Of the Radiative Platementioning

confidence: 99%

“…Therefore, heat dissipation technology has become the key to achieving long-life and high-reliability performance [5]. For this purpose, many effective methods have been implemented in forced convection cooling techniques, such as heat sinks cooled by air or liquid [6][7][8], microchannel pipes [9], and new materials and new technology [10][11][12]. However, the conventional air-cooled cooling systems are often inadequate to remove excessive heat from electronic components because of narrow heat dissipation space [13].…”

Section: Introductionmentioning

confidence: 99%

Numerical and Experimental Study on the Heat Dissipation Performance of a Novel System

Shen

Jiang

et al. 2019

Energies

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In order to better release the heat generated by the electronic components, a novel heat dissipation system is proposed, which combines a microchannel heat pipe (MHP) with a high thermal conductivity and a radiative plate with a high emissivity at nighttime. First, a simple testing rig was made with an MHP and a radiative plate, where the radiative plate was made of acrylic resin, a curing agent, thinner, and aluminum plate, and had strong radiative cooling at nighttime. Second, the mathematical model was initially established and verified using experiments, where it was shown that the agreement between numerical and experimental data was well within experimental uncertainties. Comprehensive simulation investigations were conducted by varying wind speed, relative humidity, the cloudiness coefficient, dimension of the radiative plate, and tilted angle. The results show that: (1) the emissivity of the radiative plate was about 0.311 in the daytime and about 0.908 in the nighttime; (2) the influence of wind speed on reducing the component surface temperature was greater than the cloudiness coefficient and relative humidity; (3) the width of the radiative plate had a greater effect on heat dissipation than on its length, and the maximum size of radiative plate was recommended to be 400 mm × 400–500 mm (length × width), which was equipped with a single MHP (width: 60 mm). Additionally, the tilted angle of the radiative plate should be kept within 30° of the horizontal level. In conclusion, the novel heat dissipation system had a superior application value for providing assisted electronic component cooling in the nighttime.

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“…Equation 4 assumes uniform blade width and thickness along its length, and as such the mass of the blade acts as a uniformly distributed load during forced vibration [42]. Lin et al [28] consider the geometries summarised in Figure 4 and Table 2. Fan E is found to have the highest resonant frequency, and Fan D the lowest.…”

Section: Piezoelectric Fan Parameters and Characteristicsmentioning

confidence: 99%

“…In research, blade thickness is the most commonly used variable to adjust the resonant frequency of a blade, allowing for investigation across a range of frequencies. Unlike length, which would also alter frequency, the thickness of the blade has a negligable impact on the imparted air flow field [28].…”

Section: Piezoelectric Fan Geometric Characteristicsmentioning

confidence: 99%

A review of piezoelectric fans for low energy cooling of power electronics

Hales

Jiang

2018

Applied Energy

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Power consumption from electrical devices increases year upon year, and as a result thermal management of power electronics is becoming ever more relevant. This review summarises the advancements made in the piezoelectric fan optimisation since their invention in the late 1970s. Energy consumption is highly relevant, and is an underlying theme throughout. Emphasis is placed on the methods undertaken to optimise designs for many different applications, and critical analysis of these processes is included. Comparison of data taken from different studies highlights the well-established rules of piezoelectric fan design and, more importantly for future advancements, also identifies the aspects of design which are not fully understood. Numerical modelling has become an

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A Study of an Effective Heat-Dissipating Piezoelectric Fan for High Heat Density Devices

Cited by 14 publications

References 20 publications

Recent Developments in Air Pumps for Thermal Management of Electronics

Recent Developments in Air Pumps for Thermal Management of Electronics

Numerical and Experimental Study on the Heat Dissipation Performance of a Novel System

A review of piezoelectric fans for low energy cooling of power electronics

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