1965
DOI: 10.1039/tf9656101897
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Degree of coupling and its relation to efficiency of energy conversion

Abstract: The phenomenological description of two coupled flows leads to a definition of their " degree of coupling ". This dimensionless parameter, the absolute value of which lies between zero and unity, is a generalization of the coefficient of coupling used in the theory of electrical networks ; it should serve as a basis of comparison between systems in which the nature of the flows and the forces are different. The efficiency of energy conversion, which is defied by means of the entropy production function of the … Show more

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Cited by 406 publications
(267 citation statements)
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“…The results presented here (tables 4 and 5) provide [67], reflecting the continuing expenditure of energy in the apparent absence of work. This energy input is required to maintain the steady-state against the entropic forces imposed on all natural phenomena under the second law of thermodynamics.…”
Section: The Function Distribution and Regulation Of Redox Cyclesmentioning
confidence: 99%
“…The results presented here (tables 4 and 5) provide [67], reflecting the continuing expenditure of energy in the apparent absence of work. This energy input is required to maintain the steady-state against the entropic forces imposed on all natural phenomena under the second law of thermodynamics.…”
Section: The Function Distribution and Regulation Of Redox Cyclesmentioning
confidence: 99%
“…The most rigorous basis for developing a correlation for or even predicting thermodynamic efficiency factors is probably the linear energy transducer theory developed by Kedem and Caplan [58], Caplan and Essig [54], and Stucki [59] and reviewed by Gnaiger [60] and Westerhoff [61]. This theoretical development may be used to link practically important culture characteristics such as Y X=S and Á to fundamental parameters of irreversible thermodynamics.…”
Section: Prediction Based On Growth Efficiency Analysis and Irreversimentioning
confidence: 99%
“…This could mean that, in contrast to most other biological energy-producing reactions, the process could occur relatively reversibly and thus with close to the theoretically maximum efficiency. Indeed, on irreversible thermodynamic grounds it would be expected that in general 100% efficiency can be achieved only at zero growth rate [33]. A long doubling time would also lead to a decrease in the magnitude of growth rate-dependent maintenance and thus to an increase in cellular energy conservation [34] (this may actually be the phenomenological manifestation of the irreversible thermodynamic considerations referred to above).…”
Section: Discussionmentioning
confidence: 99%