Please use this identifier to cite or link to this item: https://hdl.handle.net/10419/89596 
Year of Publication: 
2013
Series/Report no.: 
Nota di Lavoro No. 71.2013
Publisher: 
Fondazione Eni Enrico Mattei (FEEM), Milano
Abstract: 
We build a system dynamics model to evaluate the potential dynamics of consumer adoption of Smart Energy Behaviour. Within this term we include different levels of: i) shift in electricity consumption towards less costly-less polluting and congestioning hours; ii) the reduction of mainly wasteful electricity consumption, that maintains similar levels of comfort; iii) the enrolment in demand response programs; iv) electricity generation via residential micro-photovoltaic (PV) systems. These behavioural changes are triggered by the installation of advanced metering systems and a tariff policy that prices electricity according to time-of-use. The context analysed is that of Italy, where the largest diffusion of smart meters has taken place. We perform a set of 2500 simulations of our model with stochastic parameters to take into account the uncertainty in their estimation, to find that on average consumer involvement may induce on aggregate a shift in residential electricity consumption of 13.0% by 2020 and of 29.6% by 2030; and reduction in residential electricity consumption (just by reducing wasteful consumption) of 2.5% by 2020 and 9.2% by 2030. These consumption changes may have strong impacts on the system operating costs (in the order of 380 M€/y by 2020, 1203 M€/y by 2030), on the CO2 emissions (in the order of 1.56 MtonCO2/y by 2020, 5.01 Mton CO2/y by 2030), confirming the value of consumer participation.
Subjects: 
Smart-Grids
Demand Response
Demand Management
System Dynamics
Consumer Choices
Climate Policy
JEL: 
C61
Q42
Q54
Document Type: 
Working Paper

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