Welcome to the Exergoecology Portal
You are here: Home / Resources / Exergoecology bibliography

Exergoecology bibliography

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

There are 231 references in this bibliography folder.

Hermann, WA (2006).
Quantifying global exergy resources
Energy, 31:1685-1702.

Jorgensen, S (2006).
Eco-Exergy as Sustainability
WIT Press, UK.

Lior, N, Sarmiento-Darkin, W, and Al-Sharqawi, H (2006).
The exergy fields in transport processes: Their calculation and use
Energy, 31:553-578.

Meester, BD, Dewulf, J, Janssens, A, and Langenhove, Hv (2006).
An Improved Calculation of the Exergy of Natural Resources for Exergetic Life Cycle Assessment (ELCA)
Environ. Sci. Technol., 40:6844-6851.

Susani, L, Pulselli, FM, Jørgensen, SE, and Bastianoni, S (2006).
Comparison between technological and ecological exergy
Ecological Modelling, 193(3–4):447 - 456.

Trubaev, P (2006).
Exergy analysis of thermal processes in the building materials industry
Theoretical Foundations of Chemical Engineering, 40(2):175-182.

Valero D., A, Valero, A, and Arauzo, I (2006).
Evolution of the decrease in mineral exergy throughout the 20th century. The case of copper in the US
In: Inproceedings of ECOS 2006, Aghia Pelagia, Crete, Greece.

Valero D., A, Valero, A, and Arauzo, I (2006).
Exergy as an indicator for resources scarcity. The exergy loss of Australian mineral capital, a case study
In: Proceedings of IMECE2006, ASME, Chicago, USA.

Valero D., A, Valero, A, Martínez, A, and Mudd, G (2006).
A physical way to assess the decrease of mineral capital through exergy. The Australian case
In: Proceedings of ISEE 2006, Ninth Biennial Conference on the International Society for Ecological Economics (ISEE). ``Ecological Sustainability and Human Well-being'', New Delhi, India.

Zhang, N and Lior, N (2006).
A novel near-zero emission thermal cycle with LNG cryogenic exergy utilization
Energy, 31:1666-1679.

Zhang, N and Lior, N (2006).
Proposal and analysis of a novel zero CO2 emission cycle with LNG cryogenic exergy utilization
ASME J. Energy Resources Technology, 128:81-91.

Dewulf, J, Langenhove, Hv, and Velde, Bvd (2005).
Exergy-Based Efficiency and Renewability Assessment of Biofuel Production
Environ. Sci. Technol., 39:3878-3882.

Lior, N and Al-Sharqawi, H (2005).
Exergy analysis of flow dehumidification by solid desiccants
Energy, 30, 6:915-931.

Schwartzman, DLC (2005).
Temperature, Biogenesis and Biospheric Self-Organization
In: Non-equilibrium Thermodynamics and the Production of Entropy: Life, Earth and Beyond, ed. by A. Kleidon and R. Lorenz. Springer, chap. Temperature, Biogenesis and Biospheric Self-Organization, pp. 207-217.

Szargut, J (2005).
Exergy method: technical and ecological applications
WIT-press, Ashurst, UK.

Valero D., A, Valero, A, and Martinez, A (2005).
Exergy evaluation of the mineral capital on Earth. Influence of the reference environment
In: Proceedings of IMECE 2005, ASME, Orlando, USA.

Wall, G (2005).
Exergy capital and sustainable development
In: Proceedings of the Second International Exergy, Energy and Environment Symposium, Kos, Greece.

Hau, J and Bakshi, B (2004).
Expanding Exergy Analysis to Account for Ecosystem Products and Services
Environ. Sci. Technol., 38:3768-3777.

Li, J, Shrivastava, P, Gao, Z, and Zhang, HC (2004).
Printed circuit board recycling: A state-of-the-art survey
IEEE Transactions on Electronics Packaging Manufacturing, 27:33-42.

Rivero, R and Garfias, M (2004).
Standard Chemical Exergy Updated. Part II
In: Energy-Efficient, Cost-Effective, and Environmentally-Sustainable Systems and Processes, ed. by R. Rivero and L. Monroy and R. Pulido and G. Tsatsaronis, vol. 2, pp. 773-785.

Rudnick, RL and Gao, S (2004).
Composition of the Continental Crust
In: The Crust: Treatise on Geochemistry, ed. by R. L. Rudnick. Elsevier Pergamon, vol. 3, chap. Composition of the Continental Crust, pp. 1-64.

S.E., W and M.A., R (2004).
Energetic efficiencies and the exergy content of terrestrial solar radiation
Journal of Solar Energy Engineering, 126(1):673-676.

Ayres, R, Ayres, L, and Warr, B (2003).
Exergy, power and work in the US economy, 1900 to1998
Energy, 28:219-273.

Ernst, T, Popp, R, Wolf, M, and van Eldik, R (2003).
Analysis of eco-relevant elements and noble metals in printed wiring boards using AAS, ICP-AES and EDXRF
Analytical and Bioanalytical Chemistry, 375:805-814.

Sciubba, E (2003).
Extended exergy accounting applied to energy recovery from waste: The concept of total recycling
Energy, 28:1315-1334.

Document Actions


Please subscribe for the new newsletter.

Logo instituto Circe
Ministerio de Economía y Competitividad
Ulysea S.L. - Informática

The Material Limits of Energy Transition: Thanatia

Antonio Valero Capilla, Alicia Valero Delgado and Guiomar Calvo

This book provides a holistic view of raw mineral depletion in the context of renewable energy transistion.

The material limits Thanatia


Thanatia. Los límites minerales del planeta

mites minerales del planeta

 Antonio Valero Capilla and Alicia Valero Delgado interviewed by Adrián Almazán

We need a material transition, not only energetic, that restores nature and effectively reuses materials. Gaia must be cared for by extending life on Earth and slowing its degradation towards Thanatia.

Thanatia los limites


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.