Litcius/Paper detail

Development of Solid–Fluid Reaction Models—A Literature Review

L.L. Dong, Italo Mazzarino, Alessio Alexiadis

2021ChemEngineering22 citationsDOIOpen Access PDF

Abstract

A comprehensive review is carried out on the models and correlations for solid/fluid reactions that result from a complex multi-scale physicochemical process. A simulation of this process with CFD requires various complicated submodels and significant computational time, which often makes it undesirable and impractical in many industrial activities requiring a quick solution within a limited time frame, such as new product/process design, feasibility studies, and the evaluation or optimization of the existing processes, etc. In these circumstances, the existing models and correlations developed in the last few decades are of significant relevance and become a useful simulation tool. However, despite the increasing research interests in this area in the last thirty years, there is no comprehensive review available. This paper is thus motivated to review the models developed so far, as well as provide the selection guidance for model and correlations for the specific application to help engineers and researchers choose the most appropriate model for feasible solutions. Therefore, this review is also of practical relevance to professionals who need to perform engineering design or simulation work. The areas needing further development in solid–fluid reaction modelling are also identified and discussed.

Topics & Concepts

Relevance (law)Computer scienceProcess (computing)Management scienceNew product developmentScale (ratio)Work (physics)Product (mathematics)Process developmentProcess modelingRisk analysis (engineering)Biochemical engineeringSystems engineeringIndustrial engineeringWork in processManufacturing engineeringEngineeringMechanical engineeringOperations managementMathematicsMarketingOperating systemMedicineBusinessGeometryPhysicsPolitical scienceQuantum mechanicsLawFluid Dynamics and MixingProcess Optimization and IntegrationGranular flow and fluidized beds