The growing importance of the electricity sector in many economies, and of energy and environmental policies, requires a detailed consideration of these sectors and policies in computable general equilibrium (CGE) models, including both technological and temporal aspects. This paper presents the first attempt to our knowledge at building temporal disaggregation into a CGE model, while keeping technological detail. This contribution is coupled with some methodological improvements over existing technology-rich CGE models. The model is able to account for the indirect effects characteristic of CGE models while also mimicking the detailed behavior of the electricity operation and investment present before only in bottom-up detailed models. The present paper is the first of two parts and focuses on the bottom-up top-down calibration methodology needed to build such a model. Part II will present the CGE model applied to the evaluation of an energy policy with temporal consequences.
Palabras clave: Computable general equilibrium (CGE); Calibration
Energy Economics. Volumen: 46 Páginas: 258-266
Índice de impacto JCR y cuartil Scopus: 2.708 - Q1 (2014); 3.910 - Q1 (2017).
Referencia DOI: 10.1016/j.eneco.2014.09.016
Publicado en papel: Noviembre 2014. Publicado on-line: Octubre 2014.
R. Dias, P. Linares. Electricity load level detail in computational general equilibrium - Part I - Data and calibration. Energy Economics. vol. 46, pp. 258-266, Noviembre 2014. [Online: Octubre 2014]