ID | 110415 |
Title Proper | Role of energy-service demand reduction in global climate change mitigation |
Other Title Information | combining energy modelling and decomposition analysis |
Language | ENG |
Author | Kesicki, Fabian ; Anandarajah, Gabrial |
Publication | 2011. |
Summary / Abstract (Note) | In order to reduce energy-related CO2 emissions different options have been considered: energy efficiency improvements, structural changes to low carbon or zero carbon fuel/technologies, carbon sequestration, and reduction in energy-service demands (useful energy). While efficiency and technology options have been extensively studied within the context of climate change mitigation, this paper addresses the possible role of price-related energy-service demand reduction. For this analysis, the elastic demand version of the TIAM-UCL global energy system model is used in combination with decomposition analysis. The results of the CO2 emission decomposition indicate that a reduction in energy-service demand can play a limited role, contributing around 5% to global emission reduction in the 21st century. A look at the sectoral level reveals that the demand reduction can play a greater role in selected sectors like transport contributing around 16% at a global level. The societal welfare loss is found to be high when the price elasticity of demand is low. |
`In' analytical Note | Energy Policy Vol. 39, No.11; Nov 2011: p.7224-7233 |
Journal Source | Energy Policy Vol. 39, No.11; Nov 2011: p.7224-7233 |
Key Words | CO2 Emission Reduction ; Energy - Service Demand ; Energy System Modelling |