论文简介如下:
In this study, copper foam prepared by electroplating sintering was used as boiling heat transfer wall and deionized water as working substance to investigate the boiling heat transfer performance of copper foam with different structural parameters under different pressure levels. Experimental results show that the boiling heat transfer capacity of copper foam first decreases and then increases with increasing thickness. Meanwhile, the boiling heat transfer capacity of copper foam increases first and then decreases with increasing pore density. The pressure for boiling heat transfer performance of copper foam did not change significantly with increasing copper foam thickness. However, the boiling heat transfer performance of copper foam decreases with increasing pressure and pore density.