𝔖 Scriptorium
✦   LIBER   ✦
πŸ“

From Multiscale Modeling to Meso-Science: A Chemical Engineering Perspective

✍ Scribed by Jinghai Li, Wei Ge, Wei Wang, Ning Yang, Xinhua Liu, Limin Wang, Xianfeng He, Xiaowei Wang, Junwu Wang, Mooson Kwauk (auth.)

Publisher
Springer-Verlag Berlin Heidelberg
Year
2013
Tongue
English
Leaves
496
Edition
1
Category
Library
⬇  Acquire This Volume

No coin nor oath required. For personal study only.

✦ Synopsis

Multiscale modeling is becoming essential for accurate, rapid simulation in science and engineering. This book presents the results of three decades of research on multiscale modeling in process engineering from principles to application, and its generalization for different fields. This book considers the universality of meso-scale phenomena for the first time, and provides insight into the emerging discipline that unifies them, meso-science, as well as new perspectives for virtual process engineering.

Multiscale modeling is applied in areas including:

  • multiphase flow and fluid dynamics
  • chemical, biochemical and process engineering
  • mineral processing and metallurgical engineering
  • energy and resources
  • materials science and engineering

Jinghai Li is Vice-President of the Chinese Academy of Sciences (CAS), a professor at the Institute of Process Engineering, CAS, and leader of the EMMS (Energy-minimizing multiscale) Group.

Wei Ge, Wei Wang, Ning Yang and Junwu Wang are professors at the EMMS Group, part of the Institute of Process Engineering, CAS.

Xinhua Liu, Limin Wang, Xianfeng He and Xiaowei Wang are associate professors at the EMMS Group, part of the Institute of Process Engineering, CAS.

Mooson Kwauk is an emeritus director of the Institute of Process Engineering, CAS, and is an advisor to the EMMS Group.

✦ Table of Contents

Front Matter....Pages i-xxvi
Footprint and Philosophy....Pages 1-45
Meso-Scale Modeling: The EMMS Model for Gas-Solid Systems....Pages 47-89
Verification of the EMMS Model with Pseudo-Particle Modeling....Pages 91-110
Extension of the EMMS Model to Gas-Liquid Systems....Pages 111-145
From EMMS Model to EMMS Paradigm....Pages 147-183
Partial Realization of the EMMS Paradigm....Pages 185-260
Complete Realization of the EMMS Paradigm....Pages 261-309
Applications of EMMS Drag in Industry....Pages 311-357
Academic Applications of EMMS Drag....Pages 359-375
Many-Core Programming....Pages 377-401
Software....Pages 403-429
Experimental Characterization of Meso-Scale Processes....Pages 431-460
Perspectives: Meso-Science and Virtual Process Engineering....Pages 461-476
Back Matter....Pages 477-484

✦ Subjects

Engineering Fluid Dynamics;Industrial Chemistry/Chemical Engineering;Complexity;Computer-Aided Engineering (CAD, CAE) and Design;Energy Technology;Energy Systems

πŸ“œ SIMILAR VOLUMES

Multiscale Materials Modeling: Approache
πŸ“ Multiscale Materials Modeling: Approaches to Full Multiscaling
✍ Siegfried Schmauder (editor); Immanuel SchΓ€fer (editor) πŸ“‚ Library πŸ“… 2016 πŸ› De Gruyter 🌐 English

<p>This book presents current spatial and temporal multiscaling approaches of materials modeling. Recent results demonstrate the deduction of macroscopic properties at the device and component level by simulating structures and materials sequentially on atomic, micro- and mesostructural scales. The

Multiscale Materials Modeling: Approache
πŸ“ Multiscale Materials Modeling: Approaches to Full Multiscaling
✍ Siegfried Schmauder (editor); Immanuel SchΓ€fer (editor) πŸ“‚ Library πŸ“… 2016 πŸ› De Gruyter 🌐 English

<p>This book presents current spatial and temporal multiscaling approaches of materials modeling. Recent results demonstrate the deduction of macroscopic properties at the device and component level by simulating structures and materials sequentially on atomic, micro- and mesostructural scales. The

Multiscale Materials Modeling: Approache
πŸ“ Multiscale Materials Modeling: Approaches to Full Multiscaling
✍ Siegfried Schmauder, Immanuel Schafer πŸ“‚ Library πŸ“… 2016 πŸ› de Gruyter 🌐 English

<p>This book exhibits current approaches to multiscaling in the spatial and temporal domain of materials modeling. The task of deducing properties and behaviours at the device and component level by simulating structures and materials at the atomic and microstructure scales is demonstrated by recent

Multiscale modeling. A Bayesian perspect
πŸ“ Multiscale modeling. A Bayesian perspective
✍ Ferreira M., Lee H. πŸ“‚ Library πŸ“… 2007 πŸ› Springer 🌐 English

This highly useful book contains methodology for the analysis of data that arise from multiscale processes. It brings together a number of recent developments and makes them accessible to a wider audience. Taking a Bayesian approach allows for full accounting of uncertainty, and also addresses the d

Multiscale Modeling: A Bayesian Perspect
πŸ“ Multiscale Modeling: A Bayesian Perspective
✍ Marco A.R. Ferreira, Herbert K.H. Lee πŸ“‚ Library πŸ“… 2007 πŸ› Springer 🌐 English

A wide variety of processes occur on multiple scales, either naturally or as a consequence of measurement. This book contains methodology for the analysis of data that arise from such multiscale processes. The book brings together a number of recent developments and makes them accessible to a wider