Continuum theory for dense gas-solid flow: A state-of-the-art review
J Wang - Chemical Engineering Science, 2020 - Elsevier
Gas-solid fluidization technology has been commercialized in many industrial applications
since its implementation in the fluid catalytic cracking process in the early 1940s, however …
since its implementation in the fluid catalytic cracking process in the early 1940s, however …
[HTML][HTML] Multi-scale numerical simulation of fluidized beds: Model applicability assessment
In the past few decades, multi-scale numerical methods have been developed to model
dense gas-solid flow in fluidized beds with different resolutions, accuracies, and efficiencies …
dense gas-solid flow in fluidized beds with different resolutions, accuracies, and efficiencies …
Development and validation of an enhanced filtered drag model for simulating gas-solid fluidization of Geldart A particles in all flow regimes
Coarse-grid two-fluid simulation of gas-solid fluidized bed reactors based on the kinetic
theory of granular flow exhibits a significant dependence on drag models, especially for …
theory of granular flow exhibits a significant dependence on drag models, especially for …
Water-energy-carbon nexus: A life cycle assessment of post-combustion carbon capture technology from power plant level
J Wang, Z Yu, X Zeng, Y Wang, K Li, S Deng - Journal of Cleaner …, 2021 - Elsevier
Carbon capture and storage (CCS) technology is widely regarded as an important strategy
to limit CO 2 emissions from point sources, especially for coal-fired power plants. However …
to limit CO 2 emissions from point sources, especially for coal-fired power plants. However …
[HTML][HTML] A comprehensive modeling of the hybrid temperature electric swing adsorption process for CO2 capture
Adsorption technologies provide high selectivity and low energy consumption making this
technique very attractive to be employed in post-combustion carbon capture. In this …
technique very attractive to be employed in post-combustion carbon capture. In this …
An approach for drag correction based on the local heterogeneity for gas–solid flows
The drag models typically used for gas–solids interaction are mainly developed based on
homogeneous systems of flow passing fixed particle assembly. It has been shown that the …
homogeneous systems of flow passing fixed particle assembly. It has been shown that the …
Assessment of mesoscale solid stress in coarse‐grid TFM simulation of Geldart A particles in all fluidization regimes
This study focused on assessing the effect of mesoscale solid stress in the coarse grid two‐
fluid model (TFM) simulation of gas–solid fluidized beds of Geldart Group A particles over a …
fluid model (TFM) simulation of gas–solid fluidized beds of Geldart Group A particles over a …
Comprehensive experimental investigation on biomass‐glass beads binary fluidization: A data set for CFD model validation
Fluidization behavior of biomass and glass beads binary mixtures in a bubbling fluidized
bed was experimentally investigated. Mixtures containing different mass fraction of Loblolly …
bed was experimentally investigated. Mixtures containing different mass fraction of Loblolly …
Energy-minimization multiscale based mesoscale modeling and applications in gas-fluidized catalytic reactors
Gas-solid fluidization is intrinsically dynamic and manifests mesoscale structures spanning a
wide range of length and timescales. When involved with reactions, more complex …
wide range of length and timescales. When involved with reactions, more complex …
The NETL MFiX Suite of multiphase flow models: A brief review and recent applications of MFiX-TFM to fossil energy Technologies
The MFiX suite of multiphase computational fluid dynamics (CFD) codes is being developed
at US Department of Energy's National Energy Technology Laboratory (NETL). It includes …
at US Department of Energy's National Energy Technology Laboratory (NETL). It includes …