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Aggregation of demand-side flexibilities: A comparative study of approximation algorithms
Citation Link: https://doi.org/10.15480/882.9191
Publikationstyp
Journal Article
Date Issued
2022-04-01
Sprache
English
TORE-DOI
Journal
Volume
15
Issue
7
Article Number
2501
Citation
Energies 15 (7): 2501 (2022-04)
Publisher DOI
Scopus ID
Publisher
MDPI
Traditional power grids are mainly based on centralized power generation and subsequent distribution. The increasing penetration of distributed renewable energy sources and the growing number of electrical loads is creating difficulties in balancing supply and demand and threatens the secure and efficient operation of power grids. At the same time, households hold an increasing amount of flexibility, which can be exploited by demand-side management to decrease customer cost and support grid operation. Compared to the collection of individual flexibilities, aggregation reduces optimization complexity, protects households’ privacy, and lowers the communication effort. In mathematical terms, each flexibility is modeled by a set of power profiles, and the aggregated flexibility is modeled by the Minkowski sum of individual flexibilities. As the exact Minkowski sum calculation is generally computationally prohibitive, various approximations can be found in the literature. The main contribution of this paper is a comparative evaluation of several approximation algorithms in terms of novel quality criteria, computational complexity, and communication effort using realistic data. Furthermore, we investigate the dependence of selected comparison criteria on the time horizon length and on the number of households. Our results indicate that none of the algorithms perform satisfactorily in all categories. Hence, we provide guidelines on the application-dependent algorithm choice. Moreover, we demonstrate a major drawback of some inner approximations, namely that they may lead to situations in which not using the flexibility is impossible, which may be suboptimal in certain situations.
Subjects
demand-side management
energy storage
flexibility aggregation
Minkowski sum
smart grids
DDC Class
620: Engineering
Publication version
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