Risk‐based retailer profit maximization: Time of Use price setting for elastic demand

Chawda, Sandeep; Mathuria, Parul; Bhakar, Rohit

doi:10.1002/2050-7038.12036

Cited by 9 publications

(2 citation statements)

References 31 publications

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“…Thus, there is not at all possibility for EV owners to swap to a different EVA due to weak competition, information scarcity, and switching complexity. 52 Thus, modelling competition is beyond the scope of the paper. Furthermore, EVA is assumed as price-taker for energy and regulation market participation and submits only quantity demand/supply in them.…”

Section: Design Of Tou Tariffmentioning

confidence: 99%

“…EVA, aiming at its profit maximization, executes TOU‐PBDR and conveys the EV owner a price motivation to adapt its consumption to off‐peak price hours of the day. Thus, there is not at all possibility for EV owners to swap to a different EVA due to weak competition, information scarcity, and switching complexity 52 . Thus, modelling competition is beyond the scope of the paper.…”

Section: Design Of Tou Tariffmentioning

confidence: 99%

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Integrated TOU price‐based demand response and dynamic grid‐to‐vehicle charge scheduling of electric vehicle aggregator to support grid stability

Sharma

Jain

2019

Int Trans Electr Energ Syst

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Summary Unregulated and simultaneous charge scheduling of large‐scale electric vehicles (EVs) may lead to grid instability and peak demand rise. EV aggregator (EVA) can adopt coordinated and distributed charging rates for EVs over the connection hours providing stability and regulation to system operator (SO). However, against flat rate, price‐based demand response (PBDR) integrated scheduling motivates EVs to charge in off peak hours and utilize their flexibility for load levelling and peak reduction. PBDR reduces EV charging cost as well. Real‐time price (RTP) demand response (DR), mostly adopted in literature, has low acceptance rate by EVs for being too dynamic to response and being infeasible for few charge cycles in a day. Time of use (TOU), being less dynamic, is natural price signal for EVs under PBDR but may reduce EVA's profit. Considering this, an integrated TOU‐PBDR model for EVA's grid‐to‐vehicle (G2V) charge scheduling is proposed for energy and regulation market. EV owner perspective for charging cost minimization is considered along with EVA profit maximization. TOU is designed from RTP using agglomerative hierarchical clustering (AHC) method. EVs mobility uncertainty characterization makes scheduling dynamic. Sensitivity analysis based on charging rate upper limit and number of EVs validates the method. Results show interesting trends regarding EV charging cost, EVA profit, and regulation provision to SO.

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Section: Design Of Tou Tariffmentioning

confidence: 99%

Section: Design Of Tou Tariffmentioning

confidence: 99%