The proposed method simulates the growth and collapse mechanisms of lasers or sparks
cavitation bubbles based on a double-distributed pseudo-potential thermal lattice Boltzmann …

The behaviour of bubbles in cavitation and boiling processes is determined by the
thermodynamic parameters of the two-phase medium and the intensity of heat and mass …

The double distribution function thermal lattice Boltzmann method is applied to investigate
the thermodynamics of bubble interactions. The complete growth and collapse processes …

The thermal lattice Boltzmann model is applied to explore liquid viscosity effects on a single
cavitation bubble attached to chemically patterned walls. A conversion method based on the …

A modified double distribution function thermal lattice Boltzmann method is employed to
study the influences of surface tension on the interaction between two equal-sized and two …

Understanding the thermodynamics associated with the inception and interactions of
multiple cavitation bubbles is vital in developing deeper insights into the flow field and …

An improved double distribution function thermal pseudo-potential model is applied to
investigate the hydrodynamics and thermodynamics of attached wall vapor cavitation bubble …

A nonorthogonal hybrid thermal lattice Boltzmann cavitation model is proposed in this study.
The flow and density field are described by the pseudopotential model, while the …

A thermal lattice Boltzmann method is used to examine the heat flux characteristics of the
growth and collapse of wall-attached cavitation bubbles under different wall wettability and …

In this study, we employ a three-dimensional (3D) non-orthogonal multiple relaxation time
(MRT) pseudo-potential lattice Boltzmann (LB) model to simulate the dynamics of cavitation …