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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.

Khalil, EL (1990).
Entropy law and exhaustion of natural resources Is Nicholas Georgescu-Roegen's paradigm defensible?
Ecological Economics, 2(2):163 - 178.

Holland, TJB (1989).
Dependance of entropy on volume for silicate and oxide minerals. A review and a predicture model
Amer. Miner., 74:5-13.

Kuemmel, R (1989).
Energy as a factor of production and entropy as a pollution indicator in macroeconomic modelling
Ecological Economics, 1(2):161 - 180.

Brookins, DG (1988).
Eh-pH Diagrams for Geochemistry
Springer-Verlag, Berlin.

Lozano, M and Valero, A (1988).
Methodology for calculating exergy in chemical processes
In: ASME. AES, ed. by Wepfer, W.J. and Tsatsaronis, G. and Bajura, R.A., vol. 4(600449).

Swenson, R (1988).
Emergence and the principle of maximum entropy production: Multi-level system Meeting of the International Society for General Systems Research, 32.theory, evolution, and non-equilibrium thermodynamics
In: Proceedings of the 32nd Annual Meeting of the International Society for General Systems Research.

Szargut, J, Morris, D, and Steward, F (1988).
Exergy analysis of thermal, chemical, and metallurgical processes
Hemisphere Publishing Corporation.

Faber, M, Niemes, H, and Stephan, G (1987).
Entropy, Environment and Resources
Springer-Verlag, Berlin, Heidelberg, New York.

Szargut, J (1987).
Standard Chemical Exergy of Some Elements and their Compounds, based upon the Concentration in Earth's Crust
Geochemistry International, 35(1-2):53-60.

Szargut, J and Morris, D (1987).
Cumulative Exergy Consumption and Cumulative Degree of Perfection of Chemical Processes
International Journal of Ener, 11:245-261.

Woods, TL and Garrels, RM (1987).
Thermodynamic Values at Low Temperature for Natural Inorganic Materials: An Uncritical Summary
Oxford University Press, New York.

Valero, A, Lozano, M, and Muñoz, M (1986).
A general theory of exergy saving. I. On the exergetic cost
In: Computer-Aided Engineering and Energy Systems. Second Law Analysis and Modelling, ed. by R. Gaggioli, vol. 3(ASME Book No. H0341C), pp. 1-8.

Weast, RC, Astle, WJ, and Beyer, WH (1986).
CRC Handbook of Chemistry and Physics
CRC Press.

Szargut, J and Morris, D (1985).
Calculation of standard chemical exergy of some elements and their compounds based upon seawater as the datum level substance
Bulletin of the Polish Academy of Sciences. Techical Sciences., 33(5-6):293-305.

Tsatsaronis, G and Winhold, M (1985).
Exergoeconomic analysis and evaluation of energy-conversion plants–I. A new general methodology
Energy, 10(1):69 - 80.

Faber, M (1984).
A biophysical approach to the economy entropy, environment and resources
In: Energy and time in economic and physical resources, ed. by van Gool, W. and Bruggink, J.. Elsevier Science Publishers, Amsterdam, chap. A biophysical approach to the economy entropy, environment and resources, pp. 315-337.

Kameyama, H, Yoshida, K, Yamauchi, S, and Fueki, K (1982).
Evaluation of Reference Exergy for the elements
Applied Energy, 11:69-83.

Shieh, J and Fan, L (1982).
Estimation of energy (enthalpy) and exergy (availability) contents in structurally complicated materials
Energy Sources, 6(1):1-46.

Ahrendts, J (1980).
Reference States
Energy, 5:667-677.

Gaggioli, RA and Wepfer, WJ (1980).
Exergy economics
Energy, 5:823-837.

Lindsay, WL (1979).
Chemical Equilibria in Soils
Wiley, New York.

Ahrendts, J (1977).
The exergy of chemically reacting systems
VDI Forschungsheft 579, Düsseldorf.

Cloud, P (1977).
Entropy, materials, and posterity
Geologische Rundschau, 66:678-696.

Wall, G (1977).
Exergy - a Useful Concept within Resource Accounting
Institute of Theoretical Physics, Göteborg, report(77-42).

Weast, R (1975).
CRC Handbook of Chemistry and Physics
CRC Press.

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Ulysea S.L. - Informática

Thermodynamics for Sustainable Management of Natural Resources

Cover Thermodynamics

Wojciech Stanek (Editor)

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Cover Thanatia

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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.