Energy demand/Policy issues: Difference between revisions
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|Example=An example of several of these interventions forms the study “Resource Efficiency”. Here, the TIMER model was used to explore the impact of radically improving energy efficiency. This, for instance, included the information of best-available technologies in iron and steel production and other industries, the implementation of the most efficient cars and aircraft is assumed, a moderate shift is assumed from aircraft to high speed trains,and building of highly efficient housing (mostly insulation measures). It was also assumed that new power plants would be based on best-available technologies. New plants in all regions are assumed to be built on the basis of efficient technologies. The measures assumed in this global energy efficiency scenario are able to considerably reduce energy use. Primary energy consumption is reduced from X to Y EJ/yr (primary energy) in 2050, which corresponds to a reduction by about 30% as compared to the baseline. The results show that the RE scenario is able to more-or-less half the gap between baseline CO2 emissions and the emission reductions required to restrict temperature increase - with a high degree of probability - to a maximum of 2°C. | |Example=An example of several of these interventions forms the study “Resource Efficiency”. Here, the TIMER model was used to explore the impact of radically improving energy efficiency. This, for instance, included the information of best-available technologies in iron and steel production and other industries, the implementation of the most efficient cars and aircraft is assumed, a moderate shift is assumed from aircraft to high speed trains,and building of highly efficient housing (mostly insulation measures). It was also assumed that new power plants would be based on best-available technologies. New plants in all regions are assumed to be built on the basis of efficient technologies. The measures assumed in this global energy efficiency scenario are able to considerably reduce energy use. Primary energy consumption is reduced from X to Y EJ/yr (primary energy) in 2050, which corresponds to a reduction by about 30% as compared to the baseline. The results show that the RE scenario is able to more-or-less half the gap between baseline CO2 emissions and the emission reductions required to restrict temperature increase - with a high degree of probability - to a maximum of 2°C. | ||
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