Abstract
Renewable energy sources (RES) can provide valuable flexibility potential for multiple
markets and grid services in the future. In this paper, the focus lies on the development of algorithms
for an optimal dispatch and bidding of a RES-based virtual power plant (VPP) by considering current
short-term and balancing market conditions in Austria, as well as a proposed redispatch market.
Specifically, different pricing and bidding strategies for a redispatch market are compared and their
feasibility is analyzed. The attractiveness of different pricing models and remuneration mechanisms
for redispatch, as well as the influence of the redispatch call probability on the bidding behavior of the
VPP, is investigated. The simulation of the bidding behavior is carried out using linear optimization
techniques. The paper describes the algorithms as well as the assumptions for market rules in
redispatch, balancing and short-term electricity markets. The results show that the probability to be
activated for redispatch and thus the required incentives depend highly on the location of the plant.
Pre-curtailment of the plant to offer positive redispatch is not recommended as the prices would need
to be set at up to 200300% of the day-ahead price.
Original language | English |
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Pages (from-to) | 1-21 |
Number of pages | 21 |
Journal | Energies |
Volume | 15 |
Publication status | Published - 2022 |
Research Field
- Former Research Field - Integrated Energy Systems
Keywords
- redispatch
- flexibility photovoltaics