2018
DOI: 10.1016/j.ijheatmasstransfer.2018.05.133
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Pore-scale study of heterogeneous chemical reaction for ablation of carbon fibers using the lattice Boltzmann method

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Cited by 31 publications
(7 citation statements)
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“…The lattice Boltzmann method (LBM) is a meso-scale CFD approach based on a discretized form of the Boltzmann transport equation that can recover hydrodynamic equations through the Chapman-Enskog expansion [9,10]. Its algorithm allows an easy treatment of complex solid boundaries on a regular Cartesian grid [11,12], and local calculation of macroscopic quantities enables efficient parallel computing [13,14]. These features makes the LBM particularly suitable for fluid flow simulation through fibrous porous materials with highly-complex microstructure.…”
Section: Numerical Methods and Geometrymentioning
confidence: 99%
“…The lattice Boltzmann method (LBM) is a meso-scale CFD approach based on a discretized form of the Boltzmann transport equation that can recover hydrodynamic equations through the Chapman-Enskog expansion [9,10]. Its algorithm allows an easy treatment of complex solid boundaries on a regular Cartesian grid [11,12], and local calculation of macroscopic quantities enables efficient parallel computing [13,14]. These features makes the LBM particularly suitable for fluid flow simulation through fibrous porous materials with highly-complex microstructure.…”
Section: Numerical Methods and Geometrymentioning
confidence: 99%
“…They further applied the 3-D numerical model to investigate the changes to rock mechanical properties caused by reactive transport (Liu & Mostaghimi, 2017b). Wang and Zhu (2018) developed a LB reactive transport model coupled to heat transfer and studied the ablation process of carbon fibers. In conclusion, the LB method is a promising tool for gas hydrate reactive transport research involving multicomponent multiphase fluid flow, mass transport, and heat transfer in porous media.…”
Section: 1029/2019wr025195mentioning
confidence: 99%
“…On the other hand, it can be applied to a broad variety of application fields. In the context of porous media these are for example,: oil and gas flow in underground formations (H. Li et al., 2015; Ren et al., 2015), oil recovery with in situ combustion (Lei & Luo, 2022), pore structure evolution in cement manufacturing (Patel et al., 2014, 2021), combustion of porous solid rocket fuel (Wang & Zhu, 2018), water transport and reactions in fuel cells (Sarkezi‐Selsky et al., 2022), multi‐phase flow in batteries (Danner et al., 2016; Lautenschlaeger, Prifling, et al., 2022; Lautenschlaeger, Weinmiller, et al., 2022), and dissolution and precipitation reactions in stone formations (Chen et al., 2014; Kang & Lichtner, 2013; Tian & Wang, 2017; L. Zhang et al., 2019).…”
Section: Introductionmentioning
confidence: 99%