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Model Elements and Network Solutions of Heat, Mass and Momentum Transport Processes

  • Book
  • © 2017

Overview

Authors:
  1. George L. Danko

    1. Mackay School of Earth Sciences and Engineering, University of Nevada, Reno, Reno, USA

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  • Presents an enormous contribution to the broad effort with the development of a new solution approach for multi-physics problems
  • Provides original formulations, their mathematical derivations as well as applications in a numerical solution scheme
  • With many MATLAB examples
  • Includes supplementary material: sn.pub/extras

Part of the book series: Heat and Mass Transfer (HMT)

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Table of contents (11 chapters)

  1. Front Matter

    Pages i-xvii
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  2. Introduction

    • George L. Danko
    Pages 1-4

  3. Phenomenological Properties and Constitutive Equations of Transport Processes

    • George L. Danko
    Pages 5-37

  4. Conservation of a Scalar Extensive in Integral Form

    • George L. Danko
    Pages 39-45

  5. Conservation of a Scalar Extensive in Differential Form

    • George L. Danko
    Pages 47-55

  6. Conservation of a Scalar Extensive in a State-Flux, Space-Time, Finite-Volume Cell

    • George L. Danko
    Pages 57-77

  7. Conservation of Energy in Integral, Differential, and State-Flux Forms

    • George L. Danko
    Pages 79-104

  8. Transport Models for Mechanical Energy

    • George L. Danko
    Pages 105-148

  9. Transport Models for Thermal Energy

    • George L. Danko
    Pages 149-169

  10. Conservation of Momentum in Integral, Differential, and State-Flux Forms

    • George L. Danko
    Pages 171-180

  11. Conservation of Diffusive Mass Component in State-Flux Forms

    • George L. Danko
    Pages 181-196

  12. Synopsis and Examples of State-Flux Transport Network Models

    • George L. Danko
    Pages 197-231

  13. Back Matter

    Pages 233-251
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Keywords

About this book

This work provides an enormous contribution to the broad effort of modeling heat, mass and momentum transport in multi-physics problems with the development of new solution approaches. It re-visits the time-honored technique of network application using flow network solutions for all transport process components for a coupled modeling task. The book further provides as formulation of the conservation laws for mass, energy and momentum, specifically for the branches and nodes of transport networks using the combination of the Eulerian and Lagrangean modeling methods. With the extension of Bernoulli’s original concept, a new solution is given for the flow field of viscous and compressible fluids as driven by the balance of mechanical energy, coupled to the thermodynamics of the transport system. Applicable to simple or large-scale tasks, the new model elements and methods are built on first principles.

Throughout the work, the book provides original formulations, their mathematical derivations as well as applications in a numerical solution scheme.

Reviews

“In its eleven chapters and an appendix, the book provides a summary of the physical mathematical model elements for the network solution of the most common problems of the transport processes. … the selections of the examples are interesting and the book may be used as a reference text and may find a place in university libraries.” (K. N. Shukla, zbMATH 1367.80001, 2017)

Authors and Affiliations

  • Mackay School of Earth Sciences and Engineering, University of Nevada, Reno, Reno, USA

    George L. Danko

Bibliographic Information

  • Book Title: Model Elements and Network Solutions of Heat, Mass and Momentum Transport Processes

  • Authors: George L. Danko

  • Series Title: Heat and Mass Transfer

  • DOI: https://doi.org/10.1007/978-3-662-52931-7

  • Publisher: Springer Berlin, Heidelberg

  • eBook Packages: Engineering, Engineering (R0)

  • Copyright Information: Springer-Verlag GmbH Germany 2017

  • Hardcover ISBN: 978-3-662-52929-4Published: 04 November 2016

  • eBook ISBN: 978-3-662-52931-7Published: 26 October 2016

  • Series ISSN: 1860-4846

  • Series E-ISSN: 1860-4854

  • Edition Number: 1

  • Number of Pages: XVII, 251

  • Number of Illustrations: 39 b/w illustrations, 38 illustrations in colour

  • Topics: Engineering Thermodynamics, Heat and Mass Transfer, Thermodynamics, Numerical Analysis

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