Due to high temperature and viscosity, lava flow can cause large-scale damage on surrounding terrain and humanity. It is formed by molten rocks when magma in volcano is erupted out of its chamber beneath earth surface. The physical property of lava is the nonlinear behavior of viscosity of molten rocks with the influence of temperature-varying properties. Because of this, experimental estimation in the laboratory is nearly impossible. Thus many efforts have been carried out to numerical approach but mostly numerical method is little availability. This study presents a numerical approach to simulate the unsteady flow of molten rocks effusing from a vent using open source code of computational fluid dynamics utility called OpenFOAM with two phase modeling for lava and surrounding atmosphere. The viscosity of lava flow is simulated the Bingham plastic or Herschel-Bulkley model. In order to validate the numerical method, we carried out the quantitative evaluations including the extent of damage, travel distance and thickness of the lava flow at Mt. Etna, Italy.