Energy modeling approach to the global energy-mineral nexus: A first look at metal requirements and the 2 degrees C target

Stringent GHG emission cuts are required for meeting the so-called Paris Agreement. Due to higher metal intensities of renewable energy, such a transition must also include required amounts of metal. This study estimates the metal requirement for various power generation technology mix scenarios by...

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Bibliographic Details
Published in:Applied energy 2017-12, Vol.207, p.494
Main Authors: Tokimatsu, Koji, Wachtmeister, Henrik, McLellan, Benjamin, Davidsson, Simon, Murakami, Shinsuke, Höök, Mikael, Yasuoka, Rieko, Nishio, Masahiro
Format: Article
Language:English
Subjects:
2 degrees C target
Energy modeling
Energy-mineral nexus
Metal requirement
Zero emissions scenario
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Summary:Stringent GHG emission cuts are required for meeting the so-called Paris Agreement. Due to higher metal intensities of renewable energy, such a transition must also include required amounts of metal. This study estimates the metal requirement for various power generation technology mix scenarios by using a cost-minimizing energy model on the global energy-mineral nexus. Two energy and climate scenarios were developed to represent primarily economic efficiency and environmental performance, respectively, under climate policies with net zero emissions satisfying the 2 degrees C target, and without any constraints (i.e. Business As Usual). Based on the future additions of various power generation technologies, metal requirements and cumulative production were estimated in zero-order and conservative scenarios, to compare with production levels in 2015 and reserves. The results suggest that there may be cause for concern about metal requirement and/or availability in PV, nuclear, and (Plug-in Hybrid) Electric Vehicles in 2100. For PV in the Gas & Ren scenario, most of the metal usage exceeded their production levels and the reserves. It is concluded that mineral availability and production rates should be given greater attention for planning and modeling of sustainable energy systems.
ISSN:1872-9118
0306-2619
DOI:10.1016/j.apenergy.2017.05.151