Abstract
This paper proposes a stochastic bi-level decision-making model for an electric vehicle (EV) aggregator in a competitive environment. In this approach, the EV aggregator decides to participate in day-ahead (DA) and balancing markets and provides energy price offers to the EV owners in order to maximize its expected profit. Moreover, from the EV owners’ viewpoint, energy procurement cost of their EVs should be minimized in an uncertain environment. In this study, the sources of uncertainty including the EVs demand, DA and balancing prices and selling prices offered by rival aggregators are modeled via stochastic programming. Therefore, a two-level problem is formulated here, in which the aggregator makes decision in the upper level and the EV clients purchase energy to charge their EVs in the lower level. Then the obtained nonlinear bi-level framework is transformed into a single-level model using Karush–Kuhn–Tucker optimality conditions. Strong duality is also applied on the problem to linearize the bilinear products. To deal with the unwilling effects of uncertain resources, a risk measurement is also applied in the proposed formulation. The performance of the proposed framework is assessed in a realistic case study and the results show that the proposed model would be effective for an EV aggregator decision-making problem in a competitive environment.
Original language | English |
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Article number | 1100 |
Journal | Applied Sciences |
Volume | 7 |
Issue number | 10 |
Pages (from-to) | 1-16 |
ISSN | 1454-5101 |
DOIs | |
Publication status | Published - Oct 2017 |
Keywords
- Bi-level stochastic programming
- Balancing Market
- Conditional Value at Risk (CVaR)
- Day ahead market
- Electric Vehicle Aggregator