Add to ORKGThe purpose of this analysis is to show the importance of correct performance of picture representation and circumspect interpretation of variation in the application of the minimum entropy production principle. As an incorrect formulation of a variational task, written for the Fourier heat conduction problem has shown, the principle of minimum entropy production apparently goes to contradiction with the energy balance equation [1]. This led to further erroneous conclusions. The misunderstanding can be resolved - ex-ceeding far off beyond the actual problem with Gyarmati's picture representation and variational principle, the Governing Principle of Dissipative Processes
This mini review is the first study where we shall structure, list and briefly discuss the existing ...
The maximum energy dissipation related to maximum entropy production hypothesis has been revised ab...
It is shown that Onsager’s principle of the least dissipation of energy is equivalent to the maximum...
The purpose of this analysis is to show the importance of correct performance of picture representat...
We discuss the principle of minimum entropy production as proposed by Prigogine, providing two examp...
Studying heat conduction problems in linear and quasilinear ranges for stationary state one can be c...
It is well known that, according to the second law of thermodynamics, the entropy of a closed system...
The fundamental optimization principle for non-equilibrium thermodynamics is given. The second entro...
The evolution of the entropy production in solids due to heat transfer is usually associated with th...
WOS: 000185111800002In this paper the principles called 'equipartition of forces, EOF' and 'equipart...
The author points out the difficulties presented by the ordinary method for finding the minimum of e...
The principle of least action, which is usually applied to natural phenomena, can also be used in op...
The principle of maximum entropy production (MEP) is the subject of considerable academic study, but...
The Maximum Entropy Production (MEP) principle has been remarkably successful in producing accurate ...
Abstract: The speed-gradient variational principle (SG-principle) is formulated and applied to ther-...
This mini review is the first study where we shall structure, list and briefly discuss the existing ...
The maximum energy dissipation related to maximum entropy production hypothesis has been revised ab...
It is shown that Onsager’s principle of the least dissipation of energy is equivalent to the maximum...
The purpose of this analysis is to show the importance of correct performance of picture representat...
We discuss the principle of minimum entropy production as proposed by Prigogine, providing two examp...
Studying heat conduction problems in linear and quasilinear ranges for stationary state one can be c...
It is well known that, according to the second law of thermodynamics, the entropy of a closed system...
The fundamental optimization principle for non-equilibrium thermodynamics is given. The second entro...
The evolution of the entropy production in solids due to heat transfer is usually associated with th...
WOS: 000185111800002In this paper the principles called 'equipartition of forces, EOF' and 'equipart...
The author points out the difficulties presented by the ordinary method for finding the minimum of e...
The principle of least action, which is usually applied to natural phenomena, can also be used in op...
The principle of maximum entropy production (MEP) is the subject of considerable academic study, but...
The Maximum Entropy Production (MEP) principle has been remarkably successful in producing accurate ...
Abstract: The speed-gradient variational principle (SG-principle) is formulated and applied to ther-...
This mini review is the first study where we shall structure, list and briefly discuss the existing ...
The maximum energy dissipation related to maximum entropy production hypothesis has been revised ab...
It is shown that Onsager’s principle of the least dissipation of energy is equivalent to the maximum...