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From Grave to Cradle
Author(s) -
Valero Alicia,
Valero Antonio
Publication year - 2013
Publication title -
journal of industrial ecology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.377
H-Index - 102
eISSN - 1530-9290
pISSN - 1088-1980
DOI - 10.1111/j.1530-9290.2012.00529.x
Subject(s) - exergy , resource depletion , industrial ecology , environmental science , resource (disambiguation) , life cycle assessment , environmental economics , fossil fuel , natural resource economics , abiotic component , life cycle inventory , computer science , earth science , process engineering , waste management , geology , production (economics) , economics , sustainability , engineering , ecology , computer network , macroeconomics , biology , paleontology
Summary Life cycle assessment (LCA) is a promising tool in the pursuit of sustainable mining. However, the accounting methodologies used in LCA for abiotic resource depletion still have some shortcomings and need to be improved. In this article a new thermodynamic approach is presented for the evaluation of the depletion of nonfuel minerals. The method is based on quantifying the exergy costs required to replace the extracted minerals with current available technologies, from a completely degraded state in what we term “Thanatia” to the conditions currently found in nature. Thanatia is an estimated reference model of a commercial end of the planet, where all resources have been extracted and dispersed, and all fossil fuels have been burned. Mineral deposits constitute an exergy bonus that nature gives us for free by providing minerals in a concentrated state and not dispersed in the crust. The exergy replacement costs provide a measure of the bonus lost through extraction. This approach allows performing an LCA by including a new stage in the analysis: namely the grave to cradle path. The methodology is explained through the case study of nickel depletion.