Geology Reference
In-Depth Information
Valero, A., Ranz, L. and Botero, E. (2002b). Exergetic Evaluation of Natural Mineral Capi-
tal (1) Reference Environment Methodology, in G. Tsatsaronis, M. Moran, F. Cziesla
and T. Bruckner (eds.), ECOS 2002, Vol. 1 (Berlin), pp. 54-61.
Valero, A. and Torres, C. (2003). Encyclopedia of Life Support Systems (EOLSS), chap.
Thermoeconomic Analysis (Developed under the Auspices of the UNESCO, Eolss
Publishers, Oxford ,UK, [http://www.eolss.net]), Retrieved May 19, 2005.
Valero, A., Torres, C. and Serra, L. (1992). A general theory of thermoeconomics: Part I.
Structural analysis, in A. Valero and G. Tsatsaronis (eds.), Proceedings of the Inter-
national Symposium on E ciency, Costs, Optimization and Simulation of Energy
Systems, pp. 137-154.
Valero, A., Uche, J., Valero D., A., Martínez, A. and Escriu, J. (2007). Physical Hydro-
nomics: application of the exergy analysis to the assessment of environmental costs
of water bodies. The case of the Inland Basins of Catalonia, in Proceedings of ECOS
2007, Vol. I, pp. 683-692.
Valero, A. and Valero D., A. (2010). Exergoecology: A thermodynamic approach for ac-
counting the Earth's mineral capital. The case of bauxite-aluminium and limestone-
lime chains, Energy35, 1, pp. 229-238.
Valero, A. and Valero D., A. (2011). A prediction of the exergy loss of the world's mineral
reserves in the 21st century, Energy36, pp. 1848-1854.
Valero, A. and Valero D., A. (2012a). Assessing the Exergy Mineral Capital on Earth:
A proposal to the United Nations System of Environmental-Economic Accounting
(UNSC-SEEA), in 3th International Conference on Contemporary Problems of Ther-
mal Engineering (CPOTE) (Gliwice, Poland).
Valero, A. and Valero D., A. (2012b). Exergy of comminution and the Thanatia Earth's
model, Energy44, pp. 1085-1093.
Valero, A. and Valero D., A. (2013). Thermodynamic Accounting Of The Global Depletion
Of The Mineral Capital On Earth. A Proposal to the U.N. in 12th biannual Joint
European Thermodynamics Conference (Brescia, Italy), pp. 277-283.
Valero D., A. (2008). Exergy evolution of the mineral capital on earth, Ph.D. thesis, Uni-
versity of Zaragoza, Zaragoza, Spain.
Valero D., A. and Valero, A. (2012). What are the clean reserves of fossil fuels? Resources,
Conservation and Recycling68, pp. 126 - 131.
Valero D., A. and Valero, A. (2013). From Grave to Cradle A Thermodynamic Approach
for Accounting for Abiotic Resource Depletion, Journal of Industrial Ecology17, 1,
pp. 43-52.
Valero D., A., Valero, A. and Arauzo, I. (2008). Evolution of the decrease in mineral
exergy throughout the 20th century. The case of copper in the US, Energy33, 2,
pp. 107-115.
Valero D., A., Valero, A. and Domínguez, A. (2013). Exergy Replacement Cost of Mineral
Resources, Journal of Environmental Accounting and Management1, 1, pp. 147-158.
Valero D., A., Valero, A. and Gómez, J. (2010a). The crepuscular planet. A model for the
exhausted continental crust, Energy36, 1, pp. 694-707.
Valero D., A., Valero, A. and Gómez, J. B. (2011). The crepuscular planet. a model for the
exhausted continental crust, Energy36, 1, pp. 694 - 707, doi:DOI:10.1016/j.energy.
2010.09.034.
Valero D., A., Valero, A. and Martínez, A. (2010b). Inventory of the exergy resources on
earth including its mineral capital, Energy35, pp. 989-995.
Valero D., A., Valero, A. and Mudd, G. M. (2009). Exergy - A Useful Indicator for the
Sustainability of Mineral Resources and Mining, in Inproceedings of SDIMI Confer-
ence (Gold Coast, QLD, 6 - 8 July 2009), selected as one of the top 5 papers (among
more than 500) of the AusIMM conferences for 2009.
 
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