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Entropy and Entropy Production: Discussion Paper
1973I conceive my role to be that of a trigger for what, I hope, will turn out to be a lively discussion.
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Variational Principles and Entropy Production
Physical Review, 1963We have found a variational principle which is valid for irreversible processes, whether microscopic reversibility is obeyed or not, and beyond the region of linear response. A convenient general expression for entropy production is also found and the relation of entropy production to the solution of transport problems is discussed.
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Multiplicative Entropy-Energy Product Entropy VS Statistical Entropy
Abstract:This paper introduces a novel entropy formulation — multiplicative entropy — defined as the product of energy values across all units in a closed system. Unlike traditional statistical entropy, this approach explicitly tracks irreversible energy redistribution pathways, offering an analytic and path-dependent description of entropy growth ...openaire +1 more source
Energy Product Entropy VS Statistical Entropy
Abstract:This paper introduces a novel entropy formulation — multiplicative entropy — defined as the product of energy values across all units in a quantized homogeneous invariant network. Unlike traditional statistical entropy, this approach explicitly tracks irreversible energy redistribution pathways, offering an analytic and path-dependent ...openaire +1 more source
Principle of Minimum Entropy Production
Physical Review, 1957Prigogine has shown that in the steady state in which certain macroscopic affinities ${F}_{1}, {F}_{2}, \ensuremath{\cdots} {F}_{k}$ are fixed and other macroscopic affinities ${F}_{k+1}, {F}_{k+2}, \ensuremath{\cdots} {F}_{r}$ are unconstrained, the values assumed by the unconstrained affinities are such as to minimize the rate of production of ...
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Irreversible entropy production: From classical to quantum
Reviews of Modern Physics, 2021Gabriel T Landi
exaly
Radiative Entropy Production—Heat Lost to Entropy
1991Publisher Summary This chapter deals with entropy production resulting from temperature differences. This thermal conduction energy is the lost heat that goes into entropy production. All forms of entropy production result from dissipative processes involving mass, species, momentum, heat transfer, and electromagnetic or nuclear transport.
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High-entropy ceramics: Review of principles, production and applications
Materials Science and Engineering Reports, 2021Masayoshi Fuji, Kaveh Edalati
exaly