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dc.contributor.authorDouglass, Philip
dc.contributor.authorHou, Peng
dc.contributor.authorMartens, Sebastian
dc.contributor.authorYang, Guangya
dc.date.accessioned2019-07-24T12:38:06Z
dc.date.available2019-07-24T12:38:06Z
dc.date.issuedJune 2019
dc.identifier.isbn978-2-9602415-0-1
dc.identifier.issn2032-9644
dc.identifier.urihttps://cired-repository.org/handle/20.500.12455/209
dc.description.abstractResidential battery energy storage systems (BESS) will alter power flows in distribution systems, which in turn will impact DSO revenue streams. This paper simulates operation of residential BESS when exposed to varying volumetric (€/kWh) and capacity (€/kW) tariffs. The BESS is optimized for maximizing private profit when trading in the day-ahead market (DAM), assuming a perfect forecast. Aggregate behavior of a population of 300 prosumers with BESS is compared for the alternative tariff scenarios. 24-hour load profiles suitable for planning are derived for each tariff scenario.The simulations show that optimal BESS operation with volumetric tariffs will lead the range of load, the difference between peak consumption to peak production, to almost double relative to the base case without BESS, as BESS take advantage of fluctuations in DAM prices. Capacity tariffs can reduce the range of load by almost half relative to the base case, but at the expense of an increased cost of energy in the DAM. Analysis shows that capacity tariffs are most effective at utilizing network capacity, with BESS customers typically earning 2.30 € per month in the DAM for each kW of network capacity they utilize, while volumetric tariffs lead BESS customers to earn only 1.25 € per customer per month.
dc.language.isoen
dc.publisherAIM
dc.relation.ispartofseriesCIRED Conference Proceedings
dc.titleTechnical and Economic Impact of Residential BESS on Distribution Systems Under Alternative Tariff Regimes
dc.typeConference Proceedings
dc.description.conferencelocationMadrid, Spain
dc.relation.ispartProc. of the 25th International Conference on Electricity Distribution (CIRED 2019)
dc.contributor.detailedauthorDouglass, Philip, Danish Energy, Denmark
dc.contributor.detailedauthorHou, Peng, Technical University of Denmark, Denmark
dc.contributor.detailedauthorMartens, Sebastian, Danish Energy, Denmark
dc.contributor.detailedauthorYang, Guangya, Technical University of Denmark, Denmark
dc.date.conferencedate3-6 June 2019
dc.description.peerreviewedYes
dc.title.number942
dc.description.openaccessYes
dc.contributor.countryDenmark
dc.contributor.countryDenmark
dc.contributor.countryDenmark
dc.contributor.countryDenmark
dc.description.conferencenameCIRED 2019
dc.contributor.affiliationDanish Energy
dc.contributor.affiliationTechnical University of Denmark
dc.contributor.affiliationDanish Energy
dc.contributor.affiliationTechnical University of Denmark
dc.description.sessionDSO business environment enabling digitalization and energy transition
dc.description.sessionidSession 6


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