Dissipative Structure in Transport Processes and Combustion
Read Online
Share

Dissipative Structure in Transport Processes and Combustion Interdisciplinary Seminar, Bielefeld, July 17-21, 1989 (Springer Series in Synergetics) by D. Meinkohn

  • 341 Want to read
  • ·
  • 17 Currently reading

Published by Springer .
Written in English


Book details:

The Physical Object
Number of Pages243
ID Numbers
Open LibraryOL7446501M
ISBN 100387527516
ISBN 109780387527512

Download Dissipative Structure in Transport Processes and Combustion

PDF EPUB FB2 MOBI RTF

Dissipative Structures in Transport Processes and Combustion Interdisciplinary Seminar, Bielefeld, July 17–21, Editors: Meinköhn, Dirk (Ed.) Free Preview. Dissipative Structures in Transport Processes and Combustion Editor: D. Meinklihn @ Springer-Verlag Berlin, Heidelberg 2. Field Equation For a passive front model the dynamics of the flame front evolution (Huy- gens' propagation) may be described by a field equation for a scalar F(x, t) (e.g. Kerstein et al. [1]). Get this from a library! Dissipative Structures in Transport Processes and Combustion: Interdisciplinary Seminar, Bielefeld, July , [Dirk Meinköhn] -- Any description of the workings of nature by means of measurements and ob servations is beset with the problem of how to cope with an immense amount of information. In physics, it is an established. The book begins with a brief review of equilibrium systems and transport and rate processes, then covers the following areas: theory of nonequilibrium thermodynamics; dissipation function; entropy and exergy; analysis and case studies on using the second law of thermodynamics; economic impact of the nonequilibrium thermodynamics theory; analysis of transport and rate processes; membrane.

Book • Browse book content which has been stimulated by the need to understand permeability phenomena and secretion processes. Electro-osmotic transport in ion-exchange membranes has received attention because of its technical importance in desalination. Bifurcation from steady states to different types of dissipative structures. Abstract. A particular class of reaction-diffusion systems may be defined by the representative example of a highly porous body (e.g. a catalyst pellet or a fuel agglomerate) residing in a stagnant ambient atmosphere which contains some or all of the gaseous reactant species. Klimontovich Y.I. () Kinetic Description of Autowave Processes and Hydrodynamic Motion. In: Meinköhn D. (eds) Dissipative Structures in Transport Processes and Combustion. Springer Series in Synergetics, vol 1. The product composition and structure of sulfur compounds 2. Oxidative mechanisms of sulfur fuels E. Particulate formation 1. Characteristics of soot 2. Soot formation processes 3. Experimental systems and soot formation 4. Sooting tendencies 5. Detailed structure .

  D. Meinköhn (Ed.), Dissipative Structures in Transport Processes and Combustion, Springer, Berlin (), p. Self-organization in nonequilibrium systems has been known for over 50 years. Under nonequilibrium conditions, the state of a system can become unstable and a transition to an organized structure can occur. Such structures include oscillating chemical reactions and spatiotemporal patterns in chemical and other systems. Because entropy and free-energy dissipating irreversible processes generate.   To further account for the role of transport, the extended TSR, Ω R + T, is investigated. It is first noted that, for a steady problem, the right hand side of Eq.(8) vanishes, leading to a trivial result of h n = ore, a more proper way to characterize the explosive dynamics of the steady flame is to split the convective and diffusive operators and only consider the amplitudes. A turbulent combustion model without simplifying assumptions about the chemical reactions is evaluated by means of a sensitivity analysis. The turbulence model is conventional and based on gradient transport assumptions and an eddy viscosity concept.