Energy and reserve strategic offers in regional electricity markets: A complementarity approach

•The zonal operator' strategic behavior in a regional electricity market is modeled.•A zonal operator defines optimal offers to maximize the social welfare of its zone.•Both energy and reserve are considered in a centralized regional market-clearing.•Bilevel programming is used to determine opt...

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Vydáno v:International journal of electrical power & energy systems Ročník 119; s. 105860
Hlavní autoři: Porras-Ortiz, Fabricio, Añó, Osvaldo, Rubio-Barros, Ricardo, Weber, Christoph
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier Ltd 01.07.2020
Témata:
Bilevel programming
Cross-border trade
Market power
Mathematical Program with Equilibrium Constraints (MPEC)
Regional electricity market
Mathematical Program with Equilibrium Constraints (MPEC)
Market power
Bilevel programming
Cross-border trade
Regional electricity market
ISSN:0142-0615, 1879-3517
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Shrnutí:•The zonal operator' strategic behavior in a regional electricity market is modeled.•A zonal operator defines optimal offers to maximize the social welfare of its zone.•Both energy and reserve are considered in a centralized regional market-clearing.•Bilevel programming is used to determine optimal energy and reserve offers.•The strategic offers modify the benefits distribution in the regional market. Trade between electric power systems is driven by price differences in the corresponding electricity markets. When cross-border trading involves two or more markets, a regional electricity market could be put in place with different types of agreements and regulations. These cross-border exchanges could imply higher economic welfare for each zone (e.g. country) and a re-distribution of the consumers’ surpluses, producers’ profits and congestion rents within each zone, hindering regional integration. However, a zonal operator (i.e. national operator or system operator —that we introduce in this work) could capture social economic-welfare derived from cross-border trading through managing energy-and-reserve strategic offers to be submitted to the regional electricity market. With this in mind, a zonal “strategic” operator, using the proposed model in this paper, could modify zonal generators’ offers in the process when they are informed to the regional market. This model is implemented through a bilevel programming problem, where, the upper-level optimization problem seeks the zonal social-welfare maximization of a single zone by means of managing producer’s offers, subject to the regional social-welfare maximization, that is represented in the lower-level problem. Energy and reserve market prices and dispatches are obtained through a centralized coordination scheme for regional market-clearing in coherence with welfare optimization. Using KKT conditions, this bilevel model is reduced to a mixed-integer linear programming problem which may be solved using a standard branch-and-cut algorithm. Results from an illustrative example and a case study are hereby reported and analyzed.
ISSN:0142-0615
1879-3517
DOI:10.1016/j.ijepes.2020.105860