Date: 2010
Type: Working Paper
Towards a Sustainable Global Energy Supply Infrastructure: Net Energy Balance and Density Considerations
Working Paper, EUI RSCAS, 2010/72, Loyola de Palacio Programme on Energy Policy
KESSIDES, Ioannis N., WADE, David C., Towards a Sustainable Global Energy Supply Infrastructure: Net Energy Balance and Density Considerations, EUI RSCAS, 2010/72, Loyola de Palacio Programme on Energy Policy - https://hdl.handle.net/1814/14621
Retrieved from Cadmus, EUI Research Repository
This paper employs a framework of dynamic energy analysis to model the growth potential
of alternative electricity supply infrastructures as constrained by innate physical energy balance
and dynamic response limits. Coal- red generation meets the criteria of longevity (abundance of
energy source) and scalability (ability to expand to the multi-terawatt level) which are critical for
a sustainable energy supply chain, but carries a very heavy carbon footprint. Renewables and
nuclear power, on the other hand, meet both the longevity and environmental friendliness criteria.
However, due to their substantially di¤erent energy densities and load factors, they vary in terms
of their ability to deliver net excess energy and attain the scale needed for meeting the huge global
energy demand. The low power density of renewable energy extraction and the intermittency of
renewable ows limit their ability to achieve high rates of indigenous infrastructure growth. A
signi cant global nuclear power deployment, on the other hand, could engender serious risks related
to proliferation, safety, and waste disposal. Unlike renewable sources of energy, nuclear power is
an unforgiving technology because human lapses and errors can have ecological and social impacts
that are catastrophic and irreversible. Thus, the transition to a low carbon economy is likely to
prove much more challenging than early optimists have claimed.
Additional information:
Loyola de Palacio Programme on Energy Policy
Cadmus permanent link: https://hdl.handle.net/1814/14621
ISSN: 1028-3625
Series/Number: EUI RSCAS; 2010/72; Loyola de Palacio Programme on Energy Policy