Optimization of a multiple-scale renewable energy-based virtual power plant in the UK

•A comparative analysis for various scales virtual power plant model is presented.•The virtual power plant consists of scattered wind farms and one biomass plant.•The day-ahead and balancing markets are considered.•Results showing significant profit increase are analyzed. Commercial Virtual Power Pl...

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Bibliographic Details
Published in:Applied energy 2019-12, Vol.256, p.113973, Article 113973
Main Authors: Hany Elgamal, Ahmed, Kocher-Oberlehner, Gudrun, Robu, Valentin, Andoni, Merlinda
Format: Article
Language:English
Subjects:
Biomass energy
Electricity markets
Energy trading
Virtual power plant
Wind energy
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Summary:•A comparative analysis for various scales virtual power plant model is presented.•The virtual power plant consists of scattered wind farms and one biomass plant.•The day-ahead and balancing markets are considered.•Results showing significant profit increase are analyzed. Commercial Virtual Power Plants (CVPPs) have recently emerged as one of the most promising solutions for enabling intermittent renewable energy generation sources to efficiently trade the energy they generate in the electricity market. In this study, we develop several optimization and forecasting methods, and apply them to model the operation of multiple renewable generators across Scotland, trading energy as a single CVPP. The aim of the techniques developed is to optimize the scheduling of the CVPP, such as to maximize revenues and reduce the penalties resulting from forecasting errors, while considering operational and market constraints, such as variable costs, ramping rates, start-up costs, day-ahead and imbalance prices. The practical application is based on a case study of operational renewable energy plants in Scotland, and optimizes the CVPP operation for 3 months in winter and summer of 2017, respectively. Renewable generation output, day-ahead prices and imbalance prices are obtained from historical data for the same year. The numerical results show a profit increase of around 12% for the CVPP compared to standalone operation of renewable plants. This increase is observed for different market and imbalance settlement strategies.
ISSN:0306-2619
1872-9118
DOI:10.1016/j.apenergy.2019.113973