Add to ORKGIn order to develop computational strategies for solidification processing of engineering importance, one must address fundamental issues, including (i) a moving solid-fluid interface, (ii) geometrical complexities of both processing components and solid-fluid interfaces, and (iii) disparate scales in length and time, ranging from the dimension of the processing system, to the convection and diffusion scales, to the morphological scale, and to the capillary scale. Main implications from these observations are that dynamic similarity can not be maintained in virtually any scale-up processes, and, even for laminar flows, direct numerical simulation of a solidification problem can not be handled with current computing resources. In this articl...
The field where this thesis can be ranged in is the modeling of solidification processes. A central ...
A systematic approach is developed for scaling analysis of momentum, heat and species conservation e...
A systematic approach is developed for scaling analysis of momentum, heat and species conservation e...
The goal of the research detailed herein is to develop a theoretical model capable of predicting hea...
The multiscale problems in the thermal and fluid science are classified into two categories: multisc...
In this paper, solidification problems are investigated from two angles, namely, the issue of wide d...
Modeling solidification in the micro-scale is computationally intensive. To overcome this difficulty...
Modeling solidification in the micro-scale is computationally intensive. To overcome this difficulty...
Abstract In this paper, a multi-scale analysis scheme for solidification based on two-scale computat...
The dynamics of a complex fluid or fluid close to interfaces is affected by its microscopic structur...
Solid–liquid phase change phenomena are commonly encountered in many material processing operations,...
Solidification processes are complex in nature, involving multiple phases and several length scales....
Solidification processes are complex in nature, involving multiple phases and several length scales....
Dispersed multiphase flows with deformable interfaces are frequently encountered in industrial proce...
Dispersed multiphase flows with deformable interfaces are frequently encountered in industrial proce...
The field where this thesis can be ranged in is the modeling of solidification processes. A central ...
A systematic approach is developed for scaling analysis of momentum, heat and species conservation e...
A systematic approach is developed for scaling analysis of momentum, heat and species conservation e...
The goal of the research detailed herein is to develop a theoretical model capable of predicting hea...
The multiscale problems in the thermal and fluid science are classified into two categories: multisc...
In this paper, solidification problems are investigated from two angles, namely, the issue of wide d...
Modeling solidification in the micro-scale is computationally intensive. To overcome this difficulty...
Modeling solidification in the micro-scale is computationally intensive. To overcome this difficulty...
Abstract In this paper, a multi-scale analysis scheme for solidification based on two-scale computat...
The dynamics of a complex fluid or fluid close to interfaces is affected by its microscopic structur...
Solid–liquid phase change phenomena are commonly encountered in many material processing operations,...
Solidification processes are complex in nature, involving multiple phases and several length scales....
Solidification processes are complex in nature, involving multiple phases and several length scales....
Dispersed multiphase flows with deformable interfaces are frequently encountered in industrial proce...
Dispersed multiphase flows with deformable interfaces are frequently encountered in industrial proce...
The field where this thesis can be ranged in is the modeling of solidification processes. A central ...
A systematic approach is developed for scaling analysis of momentum, heat and species conservation e...
A systematic approach is developed for scaling analysis of momentum, heat and species conservation e...