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Introduction to Thermodynamics of Irreversible Processes
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The article was published on 1968-01-15 and is currently open access. It has received 2511 citations till now.read more
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Overall mass transport and solution leakage in an ion-exchange membrane electrodialyzer
TL;DR: The theory of ionic transport processes in an ion-exchange membrane electrodialysis system was developed in this article, which is expressed by the overall mass transport equation of ions and a solution across a membrane pair.
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Catalysis and non-equilibrium thermodynamics: modern in situ studies and new theoretical approaches
TL;DR: In this article, modern approaches which consider the state of operating catalysts from the point of view of non-equilibrium thermodynamics are discussed, both theoretical speculations and experimental data of some in situ studies are considered.
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Phenomenological theories of glass transition: Classical approaches, new solutions and perspectives
TL;DR: Gutzow et al. as discussed by the authors developed a phenomenology of glass transition based on a quasi-linear extension of the linear thermodynamics of irreversible processes, which represents a generalization of ideas in the description of the glass transition initially developed by Vol’kenstein and Ptizyn.
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Selecting the cooling water mass flow rate for a power plant under variable load with entropy generation rate minimization
TL;DR: In this paper, the authors deal with selecting the mass flow rate of cooling water under variable load of a power unit such that optimum operating parameters of the unit can be achieved by minimizing the total entropy generation rate of the condenser, the LP part of the turbine, and the cooling water pump.
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Saltatory Ontogeny and the Life-History Model: Neglected Processes and Patterns of Evolution
TL;DR: Ontogeny of a phenotype cannot progress gradually but is a saltatory homeorhetic system, proceeding via natural thresholds from one self organized state to the next, hierarchically ever more complex and specialized.