2020
DOI: 10.3390/en13030641
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A Review on Time Series Aggregation Methods for Energy System Models

Abstract: Due to the high degree of intermittency of renewable energy sources (RES) and the growing interdependences amongst formerly separated energy pathways, the modeling of adequate energy systems is crucial to evaluate existing energy systems and to forecast viable future ones. However, this corresponds to the rising complexity of energy system models (ESMs) and often results in computationally intractable programs. To overcome this problem, time series aggregation (TSA) is frequently used to reduce ESM complexity.… Show more

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Cited by 143 publications
(92 citation statements)
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References 185 publications
(564 reference statements)
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“…Finally, the method could leverage the use of subsampling for point estimates. Due to computational limitations, even point estimate PSM outputs are often determined using a subsampled time series such as a smaller number of "representative days" [41], [42]. Such approaches can be straightforwardly combined with the algorithm proposed in this paper by using subsampled data for the point estimate.…”
Section: B Conclusionmentioning
confidence: 99%
“…Finally, the method could leverage the use of subsampling for point estimates. Due to computational limitations, even point estimate PSM outputs are often determined using a subsampled time series such as a smaller number of "representative days" [41], [42]. Such approaches can be straightforwardly combined with the algorithm proposed in this paper by using subsampled data for the point estimate.…”
Section: B Conclusionmentioning
confidence: 99%
“…Power system modelers employ various schemes to reduce temporal complexity, as discussed in detail in [14]. A popular approach involves subsampling, often by clustering, into a smaller number of representative periods (typically days) that seek to encode longer time series in reduced form [15]- [19].…”
Section: B Time Series Reduction and Subsamplingmentioning
confidence: 99%
“…Most such reduction approaches are what the authors of [14] call a priori (or input-based) in that they depend only on the input time series but not on the underlying power system model. For example, clustering the same demand and weather data generates the same representative days (ignoring any randomness in the clustering algorithm) irrespective of whether these days are subsequently used in a highly renewable system or a system with only fossil fuel generation.…”
Section: B Time Series Reduction and Subsamplingmentioning
confidence: 99%
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