Coordination of wind power producers with an energy storage system for the optimal participation in wholesale electricity markets

•Offering strategy of a price-maker wind-based Virtual Power Plant in the day-ahead wholesale market is studied.•Multiple Wind Producers are coordinated with a Battery Energy Storage System in the form of the Virtual Power Plant.•A new formulation is developed to calculate the net power trading amon...

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Bibliographic Details
Published in:International journal of electrical power & energy systems Vol. 136; p. 107672
Main Authors: Dadashi, Mojtaba, Zare, Kazem, Seyedi, Heresh, Shafie-khah, Miadreza
Format: Journal Article
Language:English
Published: Elsevier Ltd 01.03.2022
Subjects:
Battery energy storage system
Bi-level programming problem
Market-clearing process
Strategic virtual power plant
Wind producer
Wind producer
Battery energy storage system
Bi-level programming problem
Strategic virtual power plant
Market-clearing process
ISSN:0142-0615, 1879-3517
Online Access:Get full text
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Summary:•Offering strategy of a price-maker wind-based Virtual Power Plant in the day-ahead wholesale market is studied.•Multiple Wind Producers are coordinated with a Battery Energy Storage System in the form of the Virtual Power Plant.•A new formulation is developed to calculate the net power trading among integrated resources of the Virtual Power Plant.•A two-stage stochastic bi-level programming approach is provided to achieve optimal decisions.•A sensitivity analysis is conducted to investigate the impact of the flexible unit on the Virtual Power Plant's operation. The optimal participation of wind-based power resources within electricity markets confronts serious challenges due to the inherent uncertainty of wind speed. Accordingly, these units are forced to make take-or-pay contracts that are typically lower than market-clearing prices. Hence, wind power plants are not able to obtain the maximum possible amount of profit. One of the most promising solutions to deal with this matter is the coordination of wind-based units with flexible resources like energy storage systems. Therefore, this study presents a novel offering strategy of multiple Wind Producers (WPs) coordinated with a Battery Energy Storage System (BESS) in the form of a strategic Virtual Power Plant (VPP). To this end, a bi-level programming framework is proposed in which the VPP's expected profit is maximized at the upper-level (UL) through solving a two-stage stochastic problem. At the first stage, the VPP's optimal offers to the day-ahead (DA) market are determined before the realization of stochastic variables. At the second stage, this participant's real-time (RT) imbalance cost is optimized after determining the true value of uncertain parameters. On the contrary, at the lower-level (LL), the DA market-cleaning process is performed in the presence of conventional power producers. Moreover, this article aims to calculate the amount of net power trading of the VPP's components with the market and with one another. Ultimately, to assess the effectiveness of the provided framework, a sensitivity analysis is conducted by investigating the effect of the BESS presence on the wind-based VPP's optimal operation and expected benefit.
ISSN:0142-0615
1879-3517
DOI:10.1016/j.ijepes.2021.107672