In this paper, pulse heating was adopted instead of continuous heating for the sake of improving the heat transfer performance of SEMOS heat pipe.

The close loop self-oscillating heat pipes(CLSOHP) of two different internal diameters have been experimented.

Self-oscillating heat pipes are micro-channel heat-dispersing devices for electronics cooling,and it seems that close loop self-oscillating heat pipes(CLSOHP) without check valves can be used in electronics cooling for their special advantages.

The heat transfer properties and heat transfer reinforcement methods of Self-Exciting Mode Oscillating Flow (SEMOS) Heat Pipe are analyzed in this paper, and a comparative research between uniform profile and non-uniform profile SEMOS Heat Pipe is made by using high continue heat flow laser through changing the output of laser.

Oscillating-flow heat pipe (OFHP) in drying has a great potential for application.

Experimental investigation on the heat transfer characteristics of oscillating-flow heat pipe by acoustic cavitation compared with ordinary oscillating-flow heat pipe is given.

In this paper,a series of experiments were performed to investigate the influences of pulse duration,interval time and heating power on the heat transfer characteristics of oscillating-flow heat pipe by pulse heating.