Article | REF: BE8045 V1

Intrinsic quantum thermodynamics (Application to reactive and non-reactive systems)

Author: Michael VON SPAKOVSKY

Publication date: July 10, 2016

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4. Extending the SEAQT framework to all scales

4.1 SEAQT framework applied to a macroscopic reactive system

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4.1.1 Equation of motion and reaction rate constants

The SEAQT chemical reaction model is based on the idea that entropy generation, through the principle of greatest entropic rise, is the driving force behind chemical reaction. In contrast to the previous paragraphs, the reactive system considered here initially consists of one mole H ₂ and one mole F contained in a cubic box with sides of 10 cm. For this system,...

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Extending the SEAQT framework to all scales

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Bibliography

(1) - EINSTEIN (A.), PODOLSKY (B.), ROSEN (N.) - Can quantum-mechanical description of physical reality be considered complete ? - Physical Review, vol. 47, p. 777-780 (1935).
(2) - LOSCHMIDT (J.) - Sitzungsber. Kais. Akad. Wiss. Wien, Math. Naturwiss.,...

Research centers

Center for Energy Systemp Research, Mechanical Engineering Department Virginia Tec http://www.me.vt.edu/CESR

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