Quantifying flexibility in EV charging as DR potential: Analysis of two real-world data sets
The increasing adoption of electric vehicles (EVs) presents both challenges and opportunities for the power grid, especially for distribution system operators (DSOs). The demand represented by EVs can be significant, but on the other hand, sojourn times of EVs could be longer than the time required...
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| Published in | SmartGridComm : 2016 IEEE International Conference on Smart Grid Communications : 6-9 November 2016 pp. 600 - 605 |
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| Main Authors | , , , |
| Format | Conference Proceeding |
| Language | English |
| Published |
IEEE
01.11.2016
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| Subjects | |
| Online Access | Get full text |
| DOI | 10.1109/SmartGridComm.2016.7778827 |
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| Abstract | The increasing adoption of electric vehicles (EVs) presents both challenges and opportunities for the power grid, especially for distribution system operators (DSOs). The demand represented by EVs can be significant, but on the other hand, sojourn times of EVs could be longer than the time required to charge their batteries to the desired level (e.g., to cover the next trip). The latter observation means that the electrical load from EVs is characterized by a certain level of flexibility, which could be exploited for example in demand response (DR) approaches (e.g., to balance generation from renewable energy sources). This paper analyzes two data sets, one from a charging-at-home field trial in Flanders (about 8.5k charging sessions) and another from a large-scale EV public charging pole deployment in The Netherlands (more than 1M sessions). We rigorously analyze the collected data and quantify aforementioned flexibility: (1) we characterize the EV charging behavior by clustering the arrival and departure time combinations, identifying three behaviors (charging near home, charging near work, and park to charge), (2) we fit statistical models for the sojourn time, and flexibility (i.e., non-charging idle time) for each type of observed behavior, and (3) quantify the the potential of DR exploitation as the maximal load that could be achieved by coordinating EV charging for a given time of day t, continuously until t + Δ. |
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| AbstractList | The increasing adoption of electric vehicles (EVs) presents both challenges and opportunities for the power grid, especially for distribution system operators (DSOs). The demand represented by EVs can be significant, but on the other hand, sojourn times of EVs could be longer than the time required to charge their batteries to the desired level (e.g., to cover the next trip). The latter observation means that the electrical load from EVs is characterized by a certain level of flexibility, which could be exploited for example in demand response (DR) approaches (e.g., to balance generation from renewable energy sources). This paper analyzes two data sets, one from a charging-at-home field trial in Flanders (about 8.5k charging sessions) and another from a large-scale EV public charging pole deployment in The Netherlands (more than 1M sessions). We rigorously analyze the collected data and quantify aforementioned flexibility: (1) we characterize the EV charging behavior by clustering the arrival and departure time combinations, identifying three behaviors (charging near home, charging near work, and park to charge), (2) we fit statistical models for the sojourn time, and flexibility (i.e., non-charging idle time) for each type of observed behavior, and (3) quantify the the potential of DR exploitation as the maximal load that could be achieved by coordinating EV charging for a given time of day t, continuously until t + Δ. |
| Author | Sadeghianpourhamami, Nasrin Refa, Nazir Strobbe, Matthias Develder, Chris |
| Author_xml | – sequence: 1 givenname: Chris surname: Develder fullname: Develder, Chris email: cdvelder@intec.ugent.be organization: INTEC - IBCN, Ghent Univ. - iMinds, Ghent, Belgium – sequence: 2 givenname: Nasrin surname: Sadeghianpourhamami fullname: Sadeghianpourhamami, Nasrin email: nsadeghian@intec.ugent.be organization: INTEC - IBCN, Ghent Univ. - iMinds, Ghent, Belgium – sequence: 3 givenname: Matthias surname: Strobbe fullname: Strobbe, Matthias email: mstrobbe@intec.ugent.be organization: INTEC - IBCN, Ghent Univ. - iMinds, Ghent, Belgium – sequence: 4 givenname: Nazir surname: Refa fullname: Refa, Nazir email: nazir.refa@elaad.nl organization: ElaadNL, Arnhem, Netherlands |
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| PublicationTitle | SmartGridComm : 2016 IEEE International Conference on Smart Grid Communications : 6-9 November 2016 |
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| Snippet | The increasing adoption of electric vehicles (EVs) presents both challenges and opportunities for the power grid, especially for distribution system operators... |
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| SubjectTerms | Automobiles Conferences Data models Load management Pricing Smart grids |
| Title | Quantifying flexibility in EV charging as DR potential: Analysis of two real-world data sets |
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