Generalization of exergy analysis

Exergy analysis, which provides means of calculating efficiency losses in industrial devices, is reviewed, and the area of its validity is carefully discussed. Consequently, a generalization is proposed, which holds also beyond the area of applicability of exergy analysis. The generalization is formulated within the framework of classical irreversible thermodynamics, and interestingly it leads to minimization of a functional different from entropy production. Fuel cells, osmotic power plants and heat engines are analyzed within the theory. In particular, the theory is demonstrated on a toy model of solid oxide fuel cells quantitatively. Eventually, a new general algorithm of thermodynamic optimization is proposed.

MoreLess

Year of publication:	2015
Authors:	Pavelka, Michal ; Klika, Václav ; Vágner, Petr ; Maršík, František
Published in:	Applied Energy. - Elsevier, ISSN 0306-2619. - Vol. 137.2015, C, p. 158-172
Publisher:	Elsevier
Subject:	Exergy analysis \| Non-equilibrium thermodynamics \| Fuel cells \| Osmotic power plants \| Butler–Volmer equation \| Entropy production minimization

Online Resource

Check full text access |

More access options

Check Google Scholar

In libraries world-wide (WorldCat)

In German libraries (KVK)

subito order

I need help

More details

Type of publication:	Article
Source:	RePEc - Research Papers in Economics

Persistent link: https://www.econbiz.de/10011116050