Abstract
The definition of bidding zones is a relevant question for electricity markets. The bidding zones can be identified starting from information on the nodal prices and network topology, considering the operational conditions that may lead to congestion of the transmission lines. A well-designed bidding zone configuration is a key milestone for an efficient market design and a secure power system operation, being the basis for capacity allocation and congestion management processes, as acknowledged in the relevant European regulation. Alternative bidding zone configurations can be identified in a process assisted by the application of clustering methods, which use a predefined set of features, objectives and constraints to determine the partitioning of the network nodes into groups. These groups are then analysed and validated to become candidate bidding zones. The content of the manuscript can be summarized as follows: (1) A novel probabilistic multi-scenario methodology was adopted. The approach needs the analysis of features that are computed considering a set of scenarios defined from solutions in normal operation and in planned maintenance cases. The weights of the scenarios are indicated by TSOs on the basis of the expected frequency of occurrence; (2) The relevant features considered are the Locational Marginal Prices (LMPs) and the Power Transfer Distribution Factors (PTDFs); (3) An innovative computation procedure based on clustering algorithms was developed to group nodes of the transmission electrical network into bidding zones considering topological constraints. Several settings and clustering algorithms were tested in order to evaluate the robustness of the identified solutions.
Highlights
IntroductionThe design of spot electricity markets can be classified, from a spatial granularity point of view, in two main categories: nodal markets (applied, for example, in all the liberalized US electricity markets [1,2]) and zonal ones (which is the standard design applied in Europe)
The clustering methodology reported in the previous section, developed to manage scenario-based Locational Marginal Prices (LMPs) and Power Transfer Distribution Factors (PTDFs) data, is adopted to analyse the Italian network case study
This paper has extended the application of clustering algorithms for the purpose of grouping together the network nodes with similar evolution in time of the relevant features (LMPs and PTDFs) considering a dataset based on weighted scenarios that represent different operating conditions of the Italian power system
Summary
The design of spot electricity markets can be classified, from a spatial granularity point of view, in two main categories: nodal markets (applied, for example, in all the liberalized US electricity markets [1,2]) and zonal ones (which is the standard design applied in Europe). The network topology is fully represented in market clearing algorithms and all the relevant transmission constraints are considered. Locational marginal prices are adopted in this framework, which means that different prices can be applied at each node of the grid.
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