2019
DOI: 10.1088/1742-6596/1355/1/012008
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Experimental and Numerical Investigations of Synthetic Jet Used for Electronic Cooling

Abstract: Cooling of electronics and micro-electronics devices is an important task in our present world. Synthetic jet is a relatively new technique for electronic chip cooling which synthesizes stagnant air to form a jet resulted from periodic oscillations of a diaphragm in a cavity. Synthetic jet cooling increases the rate of heat transfer as compared to other cooling techniques. The impingement heat transfer characteristics of a synthetic jet is studying in this work. Synthetic jet is driven by a piston-cylinder arr… Show more

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Cited by 1 publication
(2 citation statements)
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“…Type of flow Turbulence model Chen et al, [10] ANSYS Fluent PISO -k-omega SST D' Alencon et al, [11] ANSYS Fluent SIMPLE Transient conventional k-SST Benayad et al, [14] ANSYS Fluent -Transient, incompressible k-omega SST Huang et al, [16] ANSYS Fluent SIMPLE Incompressible k-omega SST Mohammadshahi et al, [19] -SIMPLE Incompressible k-omega SST Li et al, [22] --Transient, incompressible, k-turbulence SST Yeom et al, [52] ANSYS Fluent SIMPLE Incompressible k-omega SST Rulik and Wroblewski [24] ANSYS Fluent Transient, compressible k-omega SST Lau et al, [25] -SIMPLE Incompressible -Kumar et al, [27] ANSYS Fluent SIMPLE Transient, incompressible -Qiu et al, [34] -SIMPLEC Transient, incompressible -Tan et al, [37] ANSYS Fluent SIMPLE Incompressible k-turbulence SST Geng et al, [42] ANSYS Fluent PISO Transient, incompressible k-omega SST Fisher et al, [43] ANSYS Fluent PISO, SIMPLE Transient, steady k-turbulence SST Hoh et al, [44] ANSYS Fluent PISO Transient, incompressible -…”
Section: Table 3 Methods Reviewmentioning
confidence: 99%
See 1 more Smart Citation
“…Type of flow Turbulence model Chen et al, [10] ANSYS Fluent PISO -k-omega SST D' Alencon et al, [11] ANSYS Fluent SIMPLE Transient conventional k-SST Benayad et al, [14] ANSYS Fluent -Transient, incompressible k-omega SST Huang et al, [16] ANSYS Fluent SIMPLE Incompressible k-omega SST Mohammadshahi et al, [19] -SIMPLE Incompressible k-omega SST Li et al, [22] --Transient, incompressible, k-turbulence SST Yeom et al, [52] ANSYS Fluent SIMPLE Incompressible k-omega SST Rulik and Wroblewski [24] ANSYS Fluent Transient, compressible k-omega SST Lau et al, [25] -SIMPLE Incompressible -Kumar et al, [27] ANSYS Fluent SIMPLE Transient, incompressible -Qiu et al, [34] -SIMPLEC Transient, incompressible -Tan et al, [37] ANSYS Fluent SIMPLE Incompressible k-turbulence SST Geng et al, [42] ANSYS Fluent PISO Transient, incompressible k-omega SST Fisher et al, [43] ANSYS Fluent PISO, SIMPLE Transient, steady k-turbulence SST Hoh et al, [44] ANSYS Fluent PISO Transient, incompressible -…”
Section: Table 3 Methods Reviewmentioning
confidence: 99%
“…Jacob et al, [43] uses numerical analysis to determine the HTC of a SJ emerging from a circular orifice at H/d=6. The outcome demonstrates the importance of the H/d and sinusoidal wave frequencies on the measured heat transfer rate.…”
Section: Working Principlesmentioning
confidence: 99%