A Variational Framework for Nonlinear Chemical Thermodynamics Employing the Maximum Energy Dissipation Principle.
Date
2009
Authors
Advisors
Journal Title
Journal ISSN
ISSN
Volume Title
Publisher
ACS, Journal of Physical Chemistry B
Type
Article
Peer reviewed
Abstract
Maximum energy dissipation principle is employed to nonlinear chemical thermodynamics in terms of distance variable (general displacement) from the global equilibrium, applyong the optimal control interpretation to develop a variational formulation. The cost-like functional was chosen to support the suggestion that such a formulation corresponds to the maximum energy dissipation principle. Using this approach, the variational framework was proposed for a nonlinear chemical thermodynamics, including a general cooperative kinetics model. The formulation is in good agreement with standatd linear nonequilibrium chemical thermodynamics.
Description
Keywords
Maximum Energy Dissipation Principle, variational approach
Citation
Moroz, A. (2009) A Variational Framework for Nonlinear Chemical Thermodynamics Employing the Maximum Energy Dissipation Principle. Journal of Physical Chemistry B, 113 (23), pp. 8086-8090