Adaptive Mesh Refinement Strategies for Cost-Effective Eddy-Resolving Transient Simulations of Spray Dryers

Adaptive Mesh Refinement Strategies for Cost-Effective Eddy-Resolving Transient Simulations of Spray Dryers

The use of adaptive meshing strategies to perform cost-effective transient simulations of spray drying processes is evaluated. These simulations are often computationally expensive, given the large differences between the characteristic times of the central jet and those of the unsteady flow develop...

Full description

Saved in:
Bibliographic Details
Published in:ChemEngineering Vol. 7; no. 5; p. 100
Main Authors: Gutiérrez Suárez, Jairo Andrés, Galeano Urueña, Carlos Humberto, Gómez Mejía, Alexánder
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-10-2023
Subjects:
Adaptation
adaptive mesh refinement
Chemical engineering
Computational efficiency
computational fluid dynamics
Computing costs
Costs
Criteria
detached eddy simulation
Driers
Economic aspects
Finite element method
Grid refinement (mathematics)
Simulation
Simulation methods
Spray drying
Technology application
transient simulation
turbulence
Turbulence models
Unsteady flow
Velocity
Velocity gradient
Vortices
Vorticity
Washers & dryers
Colombia
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The use of adaptive meshing strategies to perform cost-effective transient simulations of spray drying processes is evaluated. These simulations are often computationally expensive, given the large differences between the characteristic times of the central jet and those of the unsteady flow developed at its periphery. Managing the computational cost through the control of the grid resolution by regions is inadequate in many of these applications since the grid resolution requirements change dynamically within the domain. These conditions are related to the unsteady nature of the flow in both the central jet and the flow recirculation zones. Therefore, the application of adaptive mesh refinement (AMR) strategies is recommended. In this paper, general AMR criteria based on relative errors are evaluated by testing three mesh adaptation criteria: velocity gradient, pressure gradient, and vorticity. This evaluation is performed using a low-cost turbulence model with eddy resolution (DDES) in two different types of drying chambers, in which experimental measurements are available. The use of AMR exerts appreciable effects on decreasing computational costs and contributes to the capture of large eddies in critical regions. The present approach provides an appropriate balance between solution accuracy and computational cost. By using a correct AMR configuration, it is possible to obtain results similar to those obtained on a fixed grid but reducing the computational costs by 3 to 5 times.
ISSN:2305-7084
2305-7084
DOI:10.3390/chemengineering7050100