The impact of social and weather drivers on the historical electricity demand in Europe

•Very diverse country-specific daily activity profiles emerged from national electricity hourly loads.•Temperature sensitivity was modelled to find the optimal temperature range for heating and cooling states.•Fourier analysis of residual demand suggests long-term (seasonal and annual) storage is ne...

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Published inApplied energy Vol. 229; pp. 176 - 185
Main Authors Gallo Cassarino, Tiziano, Sharp, Ed, Barrett, Mark
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.11.2018
Subjects
Activity profile
Europe
Fourier analysis
National electricity demand
Storage
Temperature sensitivity
Fourier analysis
Temperature sensitivity
Storage
Activity profile
National electricity demand
Europe
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Abstract •Very diverse country-specific daily activity profiles emerged from national electricity hourly loads.•Temperature sensitivity was modelled to find the optimal temperature range for heating and cooling states.•Fourier analysis of residual demand suggests long-term (seasonal and annual) storage is needed.•Perfect interconnection between European countries could reduce storage size by up to 61 TWh/year. Climate change, technological innovation, as well as electrification of energy services to meet carbon targets, have a significant impact on electricity demand magnitude and patterns. Increasing generation from renewable energy sources is already changing supply variability at the hourly and seasonal timescales. Our aim is to conduct a rigorous study of European historical demand, to understand its relationship with social and weather drivers and, therefore, to gain insights into appropriate storage needs. Daily activity profiles exhibit notable differences across European countries, with some of them reporting a consistent demand reduction, up to 25%, during school closures and Christmas festivities. In addition, temperature sensitivity differentiates demand by countries’ latitude (north vs. south), and by technologies (electric heating vs. other fuel based heating). Assuming a 100% renewables scenario, European countries would display quite distinct periodicities and amplitudes of their residual electricity demands. Annual load curves and temperature sensitivities of nations with high electric heating or cooling demand can assist in the prediction of future electricity and other fuel consumption under increased electrification and climate change scenarios. Fourier periodicity and residual demand analysis suggest that, in addition to grid storage, European countries with mutual energy needs – in terms of seasonal demand and generation surplus – might benefit from international trade to balance unmet demand. Our study of consumption variability in response to social and weather drivers constitutes a valuable resource to formulate country-specific demand scenarios, as well as to improve the design of energy system models.
AbstractList •Very diverse country-specific daily activity profiles emerged from national electricity hourly loads.•Temperature sensitivity was modelled to find the optimal temperature range for heating and cooling states.•Fourier analysis of residual demand suggests long-term (seasonal and annual) storage is needed.•Perfect interconnection between European countries could reduce storage size by up to 61 TWh/year. Climate change, technological innovation, as well as electrification of energy services to meet carbon targets, have a significant impact on electricity demand magnitude and patterns. Increasing generation from renewable energy sources is already changing supply variability at the hourly and seasonal timescales. Our aim is to conduct a rigorous study of European historical demand, to understand its relationship with social and weather drivers and, therefore, to gain insights into appropriate storage needs. Daily activity profiles exhibit notable differences across European countries, with some of them reporting a consistent demand reduction, up to 25%, during school closures and Christmas festivities. In addition, temperature sensitivity differentiates demand by countries’ latitude (north vs. south), and by technologies (electric heating vs. other fuel based heating). Assuming a 100% renewables scenario, European countries would display quite distinct periodicities and amplitudes of their residual electricity demands. Annual load curves and temperature sensitivities of nations with high electric heating or cooling demand can assist in the prediction of future electricity and other fuel consumption under increased electrification and climate change scenarios. Fourier periodicity and residual demand analysis suggest that, in addition to grid storage, European countries with mutual energy needs – in terms of seasonal demand and generation surplus – might benefit from international trade to balance unmet demand. Our study of consumption variability in response to social and weather drivers constitutes a valuable resource to formulate country-specific demand scenarios, as well as to improve the design of energy system models.
Author Sharp, Ed
Barrett, Mark
Gallo Cassarino, Tiziano
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Keywords Fourier analysis
Temperature sensitivity
Storage
Activity profile
National electricity demand
Europe
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Snippet •Very diverse country-specific daily activity profiles emerged from national electricity hourly loads.•Temperature sensitivity was modelled to find the optimal...
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SubjectTerms Activity profile
Europe
Fourier analysis
National electricity demand
Storage
Temperature sensitivity
Title The impact of social and weather drivers on the historical electricity demand in Europe
URI https://dx.doi.org/10.1016/j.apenergy.2018.07.108
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