Pool boiling heat transfer enhancement using the micro-thick metallic foam surface in saturated water

Pool boiling experiments using micro-thick metallic foam (MMF) are performed in saturated water at atmospheric pressure. Sintered experimental samples were fabricated with micro-thick metallic foam instead of soldering for the rigorous pool boiling experiments. This study provides the heat transfer coefficient and the critical heat flux (CHF) of the metallic foam surfaces for different pore densities and thicknesses. Also, the boiling mechanism and bubble dynamics on the micro-thick metallic foams for pool boiling were investigated with their visualization. As a result, the MMF surface with 200 mu m thick and 130 PPI has a CHF of 2050 kW/m2 and a heat transfer coefficient of 273.6 kW/m2 center dot K, respectively. Compared with other surface modification methods, MMFs with a thickness of about 200 mu m to 300 mu m can enhance heat transfer characteristics and increase the CHF. In particular, the increase in CHF might be attributed to the highly permeable structure of the metallic foam. Therefore, this study presents valuable insight into a feasible material-insensitive heat transfer enhancement method for pool boiling.