Equation of State’s Crossover Enhancement of Pseudopotential Lattice Boltzmann Modeling of CO2 Flow in Homogeneous Porous Media

Abstract: The original Shan-Chen’s pseudopotential Lattice Boltzmann Model (LBM) has continuously evolved during the past two decades. However, despite its capability to simulate multiphase flows, the model still faces challenges when applied to multicomponent-multiphase flows in complex geometries with a moderately high-density ratio. Furthermore, classical cubic equations of state usually incorporated into the model cannot accurately predict fluid thermodynamics in the near-critical region. This paper addresses these … Show more

“…The model was validated by reproducing a suspended droplet to verify the immiscibility of the two fluids (Fig. 1(a)) (Ashirbekov et al, 2021). The contact angle was controlled through the coefficient of wall interaction force and verified using a sessile droplet setup.…”

Lattice Boltzmann pseudopotential multiphase modeling of transcritical CO2 flow using a crossover formulation

“…The model was validated by reproducing a suspended droplet to verify the immiscibility of the two fluids (Fig. 1(a)) (Ashirbekov et al, 2021). The contact angle was controlled through the coefficient of wall interaction force and verified using a sessile droplet setup.…”

Lattice Boltzmann pseudopotential multiphase modeling of transcritical CO2 flow using a crossover formulation

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Pore-scale investigation on dissolution and precipitation considering secondary reaction in porous media by LBM