Abstract
A principle of virtual dissipation generalizing d’Alembert’s principle to nonlinear irreversible thermodynamics is applied to viscous fluid mixtures with coupled thermomolecular diffusion. Original dynamical field equations are obtained directly from the variational principle. The use of new fundamental concepts and methods in the thermodynamics of open systems avoids the difficulties inherent in the classical Gibbs approach.The dissipative forces incorporated explicitly in the field equations are expressed by means of a dissipation invariant evaluated in detail in terms of coupled viscous and diffusive properties. Partial pressures and dissipative stresses are given new, unambiguous thermodynamic definitions. Lagrangian type equations with generalized coordinates are also obtained directly from the variational principle. They provide a powerful tool of simplified analysis of complex open systems as well as the foundation of a variety of finite element methods.
Reference19 articles.
1. T heory of stre ss-stra in relations in anisotropic viscoelasticity. appl;Biot M. A.;Phys.,1954
2. V ariational principles in irreversible therm odynam ics w ith application to viscoelasticity. P hys;Rev.,1955
3. Biot M. A. 1970 Variational principles in heat - unified Lagrangian analysis of dissipative phenomena. O xford: C larendon Press.
4. B iot M. A. 1975 A v irtu a l dissipation principle an d L agrangian equations in nonlinear irreversible therm odynam ics. B ull. Acad. R . Belg. {Cl. Sci.) 61 6-30.
5. B iot M. A. 1976a V ariational L agrangian irreversible therm odynam ics of nonlinear th e rm o - rheology. Quart appl. M ath. 34 213-248.
Cited by
5 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献