This work numerically investigated free convective heat transfer between water in a tank and melted paraffinwax
in an enclosure mounted inside the tank. The mediums were separated by thermally conductive walls.
Three aspect ratios (AR = 0.3, 0.5, and 0.7) and three Rayleigh numbers (Ra = 104, 105, and 106) were examined
for side- and bottom-heating orientations. The computations were conducted separately for the convection and
conduction cases to observe the effects of natural convective heat transfer between the enclosures of the storage
tank. The results showed that the heating orientation had a remarkable impact on the heat transfer between two
fluids inside the intertwined enclosures. In the side-heating orientation, the variation of the average Nusselt
number (Nu) with respect to Ra did not exhibit a consistent trend. It increased by 23.1 % when Ra increased from
Ra = 104 to 105, but it decreased by 52.8 % when Ra was further increased from Ra = 105 to 106, at AR = 0.5.
The Nu along the bottom wall of the inner enclosure was up to 24-folds of that along its side walls for the sideheating
orientation and was 2.45-folds in the bottom-heating orientation. Furthermore, accumulation of hot fluid
around the inner cavity walls, which occurred in side-heating cases, reduced convective heat transfer because of
the low temperature gradient in these regions. Considering the outcomes of the present work, the bottom-heating
orientation with AR = 0.5 can be recommended for future applications involving phase change processes as it
ensured an effective thermal interaction between the two fluids.