Subsequently, ionic wind generators are discussed according to their applications, and the corresponding advances based on experimental studies
Experimental and numerical investigations are conducted to determine the operational characteristics of a needle-ring type of ionic wind generator for the case when it acts alone and for
Three V-type ''needle-to-ring'' two-stage ionic wind generators with various structures are developed in the present work. Simulation calculations and experiments are carried out to optimize
Ionic wind generators have shown significant application potential in devices for cooling, air actuation, and ow fl control. In this study, a needle-to-ring electrode ionic wind generator with optimized
Wang et al. proposed a multiple needle-to-mesh type ionic wind generator. The cooling performance of the ionic wind pump under four different needle arrangements were investigated.
In this study, a needle-ring ionic wind generator is used to clarify the variations and their internal correlation mechanisms of the transient, volt-ampere, and wind-velocity output
Ionic wind generators have shown great potential in applications in devices cooling, air actuating and flow control. Among various types of ionic wind generators, the needle-ring type is of particular
This demonstrates the capability of a multi needle ionic wind generator for thermal management of electronic components. The designed system offers nearly two folds enhancement in
In this paper, an ionic wind generator, constructed with needle-net electrode structure and powered by high-voltage positive dielectric current (DC)
Ionic wind produced by high voltage discharge has been proved as a promising technique in heat dissipation, food drying, electrostatic precipitation and air propulsion. On the other hand, the low wind
Ionic wind cooling technology is gaining popularity as a means of improving local heat dissipation. Ionic wind blowers with two non-uniform ''needles-to-ring'' subunits in series were
The purpose of the study is to optimise the multi-needle-to-net electrode structure to improve the velocity of the ionic wind and keep it in a relatively stable state.
Ionic wind generated by atmospheric pressure discharge can be used for propulsion, heat dissipation, food drying, which shows the unique advantages of no mechanical parts and fast response.
At 15 mm needle-net distance, the needle-net electrode structure ionic wind generator shows a maximum energy efficiency value of 2.19%. A metal circular plate is attached on the needle
A needle-to-ring type design of ionic wind generator is of special importance due to the high permeability of the collector electrode, the flexible adjustment of the ring electrode, and the possibility of applying
Request PDF | Numerical and experimental study of heat-transfer characteristics of needle-to-ring-type ionic wind generator for heated-plate cooling | Ionic wind generators have shown
On the other hand, the low wind velocity and the low energy efficiency of the ionic wind generators limit their performance in practical industrial applications.
The energy efficiency and wind speed of the ionic wind generator are optimized by adjusting the electrode structure and applied voltage amplitude.
In this article, the experimental studies are performed to optimize the ionic wind velocity of a DC driven needle-net ionic wind generator by adjusting device structure and operation parameters.
Ionic wind is a promising technique for heat dissipation due to its noiseless, compact structure and flexible design. In this study, needle-ring-type ionic wind devices with multi-needle
In this paper, the characteristics of the electric field, flow field, and temperature field of ionic wind heat sink are studied, respectively. The results show that the heat sink achieves the best
In order to study the cooling performance of ionic wind on a Light Emitting Diode (LED), an ionic wind generator with a needles-ring electrode
In order to study the cooling performance of ionic wind on a Light Emitting Diode (LED), an ionic wind generator with a needles-ring electrode configuration was set up.
However, a high flow rate ionic wind pump with large cross-sectional for cooling high thermal power electronic devices requires further research. In this study, a two-stage ionic wind
Ionic wind blowers with two non-uniform ''needles-to-ring'' subunits in series were proposed in the present work. The dynamic evolution process and flow distribution characteristics of the ionic
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