Anisotropic metal foam design for improved latent heat thermal energy storage in a tilted enclosure

The metal foams are a promising candidate for the enhancement of heat transfer in latent heat thermal energy storage (LHTES) units. These foams can be synthesized with engineered local properties such as improved thermal conductivity or permeability in a specified direction. However, the impact of using anisotropic metal foams for thermal energy storage has not been addressed yet. In the current research, an anisotropic metal foam was modeled mathematically with engineered local properties in perpendicular directions. The solid-liquid phase transition of the copper-coconut oil LHTES unit was simulated using the finite element method. The anisotropic metal foam was defined by using an anisotropic parameter and angle. The simultaneous impact of the mounting tilt angle and the anisotropic angle of the copper foam were addressed in the phase transition behavior and charging time of the LHTES unit. The results revealed that the anisotropic angle could notably impact the thermal energy storage power. An optimum tilt angle of -45 or +45 along with a 0 anisotropic angle could lead to the maximum charging power. Thus, designing an LHTES unit using an anisotropic metal foam could save the charging about 15% (for a -45 inclination angle) and 20% (for zero inclination angle) compared to a regular metal foam. Such save in the charging time is without any penalty on the weight increase or capacity reduction for the LHTES unit.

Automated summary

Metal foams with engineered local properties can enhance heat transfer in latent heat thermal energy storage (LHTES) units. However, the use of anisotropic metal foams for thermal energy storage has not been studied. This research mathematically modeled an anisotropic metal foam and simulated the phase transition behavior of a copper-coconut oil LHTES unit. The results showed that the anisotropic angle significantly affected the thermal energy storage power, and an optimum tilt angle of -45 or +45 along with zero anisotropic angle achieved the maximum charging power.