Strategies to Incentivize the Participation of Variable Renewable Energy Generators in Balancing Markets

Strategies to Incentivize the Participation of Variable Renewable Energy Generators in Balancing Markets

Balancing markets (BMs) play a crucial role in ensuring the real-time equilibrium between electricity demand and supply. The current requirements for participation in BMs often overlook the characteristics and capabilities of variable renewables, limiting their effective integration. The increasing...

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Bibliographic Details
Main Authors: Hugo Algarvio, Vivian Sousa
Format: Article
Language:English
Published: MDPI AG 2025-05-01
Series:Energies
Subjects:
balancing markets
balancing reliability requirements
full cost balancing
secondary reserve
variable renewables
wind power
Online Access:https://www.mdpi.com/1996-1073/18/11/2800
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Summary:Balancing markets (BMs) play a crucial role in ensuring the real-time equilibrium between electricity demand and supply. The current requirements for participation in BMs often overlook the characteristics and capabilities of variable renewables, limiting their effective integration. The increasing penetration of variable renewables necessitates adjustments in the design of BMs to support the transition toward carbon-neutral power systems. This study examines the levels of active market participation for a wind power producer (WPP) in the Iberian Electricity Market and the Portuguese BMs. In addition to exploring current market dynamics, the study tests one methodology proposed by the Danish Transmission System Operator to support the participation of variable renewables in BMs, the P90, and two new methods based on the full cost balancing concept. These methodologies incentivize WPPs to minimize imbalances by allowing market participation only if imbalances remain within a 10% deadband of annual hours (P90), hourly offers (D90), or both (DP90). The results indicate that participating in the secondary capacity market, particularly for downward capacity, is the most profitable strategy. This participation enhances the value of wind power by over 42%. However, in most methodologies, the WPP failed to deliver nearly 100% of its allocated capacity approximately 1% of the time. In contrast, the D90 approach limited the maximum deviation to 10%, demonstrating the highest reliability among the evaluated methods.
ISSN:1996-1073

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