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Risk-Averse Optimal Energy and Reserve Scheduling for Virtual Power Plants Incorporating Demand Response Programs

Vahedipour-Dahraie, Mostafa; Rashidizade-Kermani, Homa; Shafie-khah, Miadreza; Catalão, João P. S. (2020-09-28)

 
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https://doi.org/10.1109/TSG.2020.3026971

Vahedipour-Dahraie, Mostafa
Rashidizade-Kermani, Homa
Shafie-khah, Miadreza
Catalão, João P. S.
Institute of Electrical and Electronics Engineers
28.09.2020
doi:10.1109/TSG.2020.3026971
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Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi-fe2020100778229

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© Institute of Electrical and Electronics Engineers.
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This paper addresses the optimal bidding strategy problem of a virtual power plant (VPP) participating in the dayahead (DA), real-time (RT) and spinning reserve (SR) markets (SRMs). The VPP comprises a number of dispatchable energy resources (DERs), renewable energy resources (RESs), energy storage systems (ESSs) and a number of customers with flexible demand. A two-stage risk-constrained stochastic problem is formulated for the VPP scheduling, where the uncertainty lies in the energy and reserve prices, RESs production, load consumption, as well as calls for reserve services. Based on this model, the VPP bidding/offering strategy in the DA market (DAM), RT market (RTM) and SRM is decided aiming to maximize the VPP profit considering both supply and demandsides (DS) capability for providing reserve services. On the other hand, customers participate in demand response (DR) programs by using load curtailment (LC) and load shifting (LS) options as well as by providing reserve service to minimize their consumption costs. The proposed model is implemented on a test VPP and the optimal decisions are investigated in detail through a numerical study. Numerical simulations demonstrate the effectiveness of the proposed scheduling strategy and its operational advantages and the computational effectiveness.
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