Double multiple-relaxation-time lattice Boltzmann model for solid–liquid phase change with natural convection in porous media

•A double MRT-LB model has been developed for simulating transient solid–liquid phase change problems in porous media.•The solid–liquid interface is traced through the liquid fraction which is determined by the enthalpy-based method.•The model is based on the generalized non-Darcy model.•The efficiency and accuracy of the MRT-LB model are demonstrated by numerical simulations of solid–liquid phase change problems in porous media.

In this paper, a double multiple-relaxation-time lattice Boltzmann model is developed for simulating transient solid–liquid phase change problems in porous media at the representative elementary volume scale. The model uses two different multiple-relaxation-time lattice Boltzmann equations, one for the flow field and the other for the temperature field with nonlinear latent heat source term. The model is based on the generalized non-Darcy formulation, and the solid–liquid interface is traced through the liquid fraction which is determined by the enthalpy-based method. The present model is validated by numerical simulations of conduction melting in a semi-infinite space, solidification in a semi-infinite corner, and convection melting in a square cavity filled with porous media. The numerical results demonstrate the efficiency and accuracy of the present model for simulating transient solid–liquid phase change problems in porous media.