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Exergoecology bibliography

This folder holds the following references to publications, sorted by year and author.

There are 158 references in this bibliography folder.

Muys, B, Wagendrop, T, Aerts, R, and García Quijano, J (2001).
Ecological sustainability assessment of carbon sequestration and substitution projects using the exergy concept
In: Proceedings of the Conference Carbon sinks and Biodiversity, Liège.

Sciubba, E (2001).
Beyond Thermoeconomics? The concept of Extended Exergy Accounting and its application to the analysis and design of thermal systems
Exergy, 1(2):68-84.

Wall, G and Gong, M (2001).
On exergy and sustainable development-Part 1: Conditions and concepts
Exergy Int. J., 1(3):128-145.

Dincer, I (2000).
Thermodynamics, Exergy and Environmental Impact
Energy Sources, 22:723-732.

Jorgensen, S (2000).
Exergy of an isolated living system may increase
In: Advances in Energy Studies. 2º International Workshop, ed. by Sergio Ulgiati, pp. 573/578, SGEditoriali Padova.

Martinas, K and Frankowicz, M (2000).
Extropy - Reformulation of the Entropy Principle
Per. Pol. Chem. Eng., 44(1):29-38.

Svirezhev, YM (2000).
Thermodynamics and ecology
Ecological Modelling, 132(1-2):11 - 22.

Ayres, RU (1999).
The second law, the fourth law, recycling and limits to growth
Ecological Economics, 29(3):473 - 483.

Rosen, M and Dincer, I (1999).
Exergy analysis of waste emissions
International journal of energy research, 23(13):1153-1163.

Alvarado, Sea (1998).
Energy-exergy optimization of comminution
Energy, 23(4):153-158.

Ayres, RU (1998).
Eco-thermodynamics: economics and the second law
Ecological Economics, 26(2):189 - 209.

van Gool, W (1998).
Thermodynamics of chemical references for exergy analysis
Energy Conversion and Management, 39(16-18):1719-1728.

Zaleta, A, Ranz, L, and Valero, A (1998).
Towards a unified measure of renewable resources availability: the exergy method applied to the water of a river
Energy Conversion and Management, 39(16-18):1911-1917.

Lior, N (1997).
Energy, exergy, and thermoeconomic analysis of the effects of fossil-fuel superheating in nuclear power plants
Energy C, 38:1585-1593.

Mcmahon, GF and Mrozek, JR (1997).
Economics, entropy and sustainability
Hydrological Sciences-Journal-des Sciences Hydrologiques, 42(4):501-512.

Svirezhev, Y (1997).
Exergy of the Biosphere
Ecological Modelling, 96:309-310.

Hamed, O, Zamamiri, A, Aly, S, and Lior, N (1996).
Thermal performance and exergy analysis of a thermal vapor compression desalination system
Energy Conversion and Management, 37:379-387.

Ayres, R and Martinas, K (1995).
Waste Potential Entropy: The Ultimate Ecotoxic
Economie Appliquee, XLVIII(2):95-120.

Dunbar, W, Moody, S, and Lior, N (1995).
Exergy analysis of an operating boiling-water-reactor nuclear power station
Energy Conversion and Management, 36, 3:149-159.

Wedepohl, KH (1995).
The composition of the continental crust
Geochimica et Cosmochimica Acta, 59(7):1217-1232.

Hueting, R (1993).
Calculating a Sustainable National Income: A Practical Solution for a Theoretical Dilemma
In: Entropy and BioEconomics: Proceedings of the First International Conference of the European Association for Bioeconomic Studies, pp. 322-343, Rome.

Daly, HE (1992).
Is the entropy law relevant to the economics of natural resource scarcity? Yes, of course it is!
Journal of Environmental Economics and Management, 23(1):91 - 95.

Dunbar, W, Lior, N, and Gaggioli, R (1992).
The component equations of energy and exergy
ASME J. Energy Resources Technology, 114:75-83.

Dunbar, W, Lior, N, and Gaggioli, R (1991).
Combining fuel cells with fuel-fired power plants for improved exergy efficiency
Energy, 16, 10:1259-1274.

Valero, A and Arauzo, I (1991).
Exergy outcomes associated with the greenhouse effects
In: AES, Second Analysis-Industrial and Environmental Applications, ed. by Reistad, G.M. and Moran, M.J. and Wepfer, W.J. and Lior, N., vol. 25, pp. 63-70, The American Society of Mechanical Engineers.

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Ministerio de Economía y Competitividad
Ulysea S.L. - Informática

Thermodynamics for Sustainable Management of Natural Resources

Cover Thermodynamics

Wojciech Stanek (Editor)

This book examines ways of assessing the rational management of nonrenewable resources. Integrating numerous methods, it systematically exposes the strengths of exergy analysis in resources management.

Thanatia: The Destiny of the Earth's Mineral Resources

Cover Thanatia

A Thermodynamic Cradle-to-Cradle Assessment by (author): Antonio Valero Capilla and Alicia Valero Delgado

Is Gaia becoming Thanatia, a resource exhausted planet? For how long can our high-tech society be sustained in the light of declining mineral ore grades, heavy dependence on un-recycled critical metals and accelerated material dispersion? These are all root causes of future disruptions that need to be addressed today.