- We will send in 10–14 business days.
/images/books/7514533/9781289251154.jpg)
- Author: James Thomas
- Publisher: Bibliogov
- ISBN-10: 1289251150
- ISBN-13: 9781289251154
- Format: 18.9 x 24.6 x 0.2 cm, minkšti viršeliai
- Language: English
- SAVE -10% with code: EXTRA
On Efficient Multigrid Methods for Materials Processing Flows with Small Particles (e-book) (used book) | bookbook.eu
Reviews
Description
Multiscale modeling of materials requires simulations of multiple levels of structural hierarchy. The computational efficiency of numerical methods becomes a critical factor for simulating large physical systems with highly desperate length scales. Multigrid methods are known for their superior efficiency in representing/resolving different levels of physical details. The efficiency is achieved by employing interactively different discretizations on different scales (grids). To assist optimization of manufacturing conditions for materials processing with numerous particles (e.g., dispersion of particles, controlling flow viscosity and clusters), a new multigrid algorithm has been developed for a case of multiscale modeling of flows with small particles that have various length scales. The optimal efficiency of the algorithm is crucial for accurate predictions of the effect of processing conditions (e.g., pressure and velocity gradients) on the local flow fields that control the formation of various microstructures or clusters.
EXTRA 10 % discount with code: EXTRA
The promotion ends in 21d.02:43:35
The discount code is valid when purchasing from 10 €. Discounts do not stack.
- Author: James Thomas
- Publisher: Bibliogov
- ISBN-10: 1289251150
- ISBN-13: 9781289251154
- Format: 18.9 x 24.6 x 0.2 cm, minkšti viršeliai
- Language: English English
Multiscale modeling of materials requires simulations of multiple levels of structural hierarchy. The computational efficiency of numerical methods becomes a critical factor for simulating large physical systems with highly desperate length scales. Multigrid methods are known for their superior efficiency in representing/resolving different levels of physical details. The efficiency is achieved by employing interactively different discretizations on different scales (grids). To assist optimization of manufacturing conditions for materials processing with numerous particles (e.g., dispersion of particles, controlling flow viscosity and clusters), a new multigrid algorithm has been developed for a case of multiscale modeling of flows with small particles that have various length scales. The optimal efficiency of the algorithm is crucial for accurate predictions of the effect of processing conditions (e.g., pressure and velocity gradients) on the local flow fields that control the formation of various microstructures or clusters.
Reviews