Title :
Assessing the role of electricity storage in EU28 until 2050
Author :
Nijs, Wouter ; Simoes, Sofia ; Ruiz, Pablo ; Sgobbi, Alessandra ; Thiel, C.
Author_Institution :
Inst. for Energy & Transp., EC- Joint Res. Centre- Inst. for Energy & Transp., Petten, Netherlands
Abstract :
The linear optimization bottom-up technology model JRC-EU-TIMES is used to assess the cost-effectiveness of electricity storage technologies in the EU28 energy system. The model represents the EU28 energy system from 2005 to 2050, where each country is one region. We model five scenarios, one of which is the "reference" and four decarbonized scenarios that include the 20-20-20 policy targets and a CO2 reduction of 40% and 85% below 1990 values in 2030 and 2050 respectively. The introduction of a CO2 cap leads in 2050 to a 25-50% share of total electricity that is variable. Up to 20% of this renewable variable electricity is stored in batteries and CAES storage technologies.
Keywords :
air pollution control; compressed air energy storage; linear programming; secondary cells; 20-20-20 policy targets; CAES storage technologies; EU28 energy system; decarbonized scenarios; electricity storage technologies; linear optimization bottom-up technology model JRC-EU-TIMES; renewable variable electricity; Analytical models; Batteries; Economics; Electricity; Europe; Investment; Production; EU28; TIMES; electricity storage; energy system model; low carbon;
Conference_Titel :
European Energy Market (EEM), 2014 11th International Conference on the
Conference_Location :
Krakow
DOI :
10.1109/EEM.2014.6861273
