Abstract
Keeping the temperature within safe limits and overcoming the component failures are highly dependent upon heat dissipation in electronic devices. Temperature reduction is a critical factor to be improved in electronic devices due to their compactness in size. Here, a nail-to-cylinder ionic wind generator was constructed for heat reduction. Ionic wind generation represents a new type of cooling for electronic devices. We measured the discharge current and ionic wind speed for various electrode temperatures, electrode distances, and applied voltages. The electrode space and voltage were changed under different conditions; ionic wind velocity was examined within the device. According to the experiments, the installed ionic wind generators represent an effective method of cooling for electronic devices. The experimental results showed that an electrode space of 10.0 mm, a diameter of 25.4 mm, and a voltage of 5 kV led to the maximum ionic wind velocity.
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