Modelling and Simulation of Diffusive Processes: Methods and Applications
This book addresses the key issues in the modeling and simulation of diffusive processes from a wide spectrum of different applications across a broad range of disciplines. Features: discusses diffusion and molecular transport in living cells and suspended sediment in open channels; examines the modeling of peristaltic transport of nanofluids, and isotachophoretic separation of ionic samples in microfluidics; reviews thermal characterization of non-homogeneous media and scale-dependent porous dispersion resulting from velocity fluctuations; describes the modeling of nitrogen fate and transport at the sediment-water interface and groundwater flow in unconfined aquifers; investigates two-dimensional solute transport from a varying pulse type point source and futile cycles in metabolic flux modeling; studies contaminant concentration prediction along unsteady groundwater flow and modeling synovial fluid flow in human joints; explores the modeling of soil organic carbon and crop growth simulation.
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Modelling and Simulation of Diffusive Processes: Methods and Applications
This book addresses the key issues in the modeling and simulation of diffusive processes from a wide spectrum of different applications across a broad range of disciplines. Features: discusses diffusion and molecular transport in living cells and suspended sediment in open channels; examines the modeling of peristaltic transport of nanofluids, and isotachophoretic separation of ionic samples in microfluidics; reviews thermal characterization of non-homogeneous media and scale-dependent porous dispersion resulting from velocity fluctuations; describes the modeling of nitrogen fate and transport at the sediment-water interface and groundwater flow in unconfined aquifers; investigates two-dimensional solute transport from a varying pulse type point source and futile cycles in metabolic flux modeling; studies contaminant concentration prediction along unsteady groundwater flow and modeling synovial fluid flow in human joints; explores the modeling of soil organic carbon and crop growth simulation.
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Modelling and Simulation of Diffusive Processes: Methods and Applications

Modelling and Simulation of Diffusive Processes: Methods and Applications

Modelling and Simulation of Diffusive Processes: Methods and Applications
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Modelling and Simulation of Diffusive Processes: Methods and Applications

Modelling and Simulation of Diffusive Processes: Methods and Applications

Overview

This book addresses the key issues in the modeling and simulation of diffusive processes from a wide spectrum of different applications across a broad range of disciplines. Features: discusses diffusion and molecular transport in living cells and suspended sediment in open channels; examines the modeling of peristaltic transport of nanofluids, and isotachophoretic separation of ionic samples in microfluidics; reviews thermal characterization of non-homogeneous media and scale-dependent porous dispersion resulting from velocity fluctuations; describes the modeling of nitrogen fate and transport at the sediment-water interface and groundwater flow in unconfined aquifers; investigates two-dimensional solute transport from a varying pulse type point source and futile cycles in metabolic flux modeling; studies contaminant concentration prediction along unsteady groundwater flow and modeling synovial fluid flow in human joints; explores the modeling of soil organic carbon and crop growth simulation.

Product Details

ISBN-13: 9783319056579
Publisher: Springer-Verlag New York, LLC
Publication date: 04/15/2014
Series: Simulation Foundations, Methods and Applications
Sold by: Barnes & Noble
Format: eBook
Pages: 339
File size: 6 MB

About the Author

Dr. S.K. Basu is a Professor in the Department of Computer Science at Banaras Hindu University, Varanasi, India. Dr. Naveen Kumar is a Professor in the Department of Mathematics at the same institution.

Table of Contents

Diffusive Processes and Modeling.- Diffusion and Transport of Molecules in Living Cells.- Modeling the Diffusion and Transport of Suspended Sediment in Open Channels, Using Two-Phase Flow Theory.- Mathematical Modeling of Peristaltic Pumping of Nano-Fluids.- Numerical Study on Isotachophoretic Separation of Ionic Samples in Microfluidics.- Thermal Characterization of Non-Homogeneous Media.- Scale Dependent Porous Dispersion Resulting from the Cumulative Effects of Velocity Fluctuations.- Modeling Nitrogen Fate and Transport at the Sediment-Water Interface.- Modeling Groundwater Flow in Unconfined Aquifers.- Two-Dimensional Solute Transport from a Varying Pulse-Type Point Source.- The Problem of Futile Cycles in Metabolic Flux Modeling.- Contaminant Concentration Prediction Along Unsteady Groundwater Flow.- Wavelet-Multigrid Method for Solving Modified Reynolds Equation Modeling Synovial Fluid Flow in a Normal Human Knee Joint.- A Basic Concept on Modeling Soil Organic Carbon.- Crop Growth Simulation Modeling.

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