Search

Begin New Search
Proceed to Checkout

Search Results for All:
(Showing results 1 to 5 of 5)



The More Cooperation, The More Competition? A Cournot Analysis of the Benefits of Electric Market Coupling

Benjamin F. Hobbs, Fieke A.M. Rijkers, Maroeska G. Boots

Year: 2005
Volume: Volume 26
Number: Number 4
DOI: 10.5547/ISSN0195-6574-EJ-Vol26-No4-5
View Abstract

Abstract:
If barriers between two power markets are eliminated, what might happen to competition and prices? And who benefits? In the case of the Belgian and Dutch markets, market coupling would permit more efficient use of transmission by improving access to the Belgian market, by counting only net flows against interface limits, and by eliminating mismatches in timing of interface auctions and energy spot markets. We estimate the benefits associated with the first two of these impacts using a transmission-constrained Cournot model. Social surplus improvements on the order of 108 �/year are projected, unless market coupling encourages the largest producer in the region to switch from price-taking in Belgium to a Cournot strategy due to a perceived diminished threat of regulatory intervention. Whether Dutch consumers would benefit also depends on that company�s behavior. The results illustrate how large-scale oligopoly models can be used to assess changes in market designs.



The Impacts of Variable Renewable Production and Market Coupling on the Convergence of French and German Electricity Prices

Jan Horst Keppler, Sebastien Phan, and Yannick Le Pen

Year: 2016
Volume: Volume 37
Number: Number 3
DOI: 10.5547/01956574.37.3.jkep
View Abstract

Abstract:
This paper estimates the impact of two separate factors on the spread between French and German electricity prices, the amount of production by variable renewables and "market coupling". As renewable electricity production is concentrated during a limited number of hours with favourable meteorological conditions and interconnection capacity between France and Germany is limited, increases in production of wind and solar PV in Germany lead to increasing price spreads between the two countries. Our estimates based on a sample of 24 hourly French and German day-ahead prices from November 2009 to June 2013 confirm that renewable electricity production in Germany has a strongly positive impact on price divergence. On the other hand, market coupling, the establishment of a combined order book on the basis of information of both markets, which was introduced in November 2010, can be shown to have mitigated the observed price divergence. Both results have policy relevant implications for welfare and the optimal provision of interconnection capacity.



Market Integration and Wind Generation: An Empirical Analysis of the Impact of Wind Generation on Cross-Border Power Prices

Sébastien Annan-Phan and Fabien A. Roques

Year: 2018
Volume: Volume 39
Number: Number 3
DOI: 10.5547/01956574.39.3.spha
View Abstract

Abstract:
European power markets have become more integrated and renewables have a significant effect on power prices and cross-border exchanges. This paper investigates empirically how the effects of renewables are affected by market expansion across two adjacent countries (France and Germany), based on market data and proprietary data on book orders. We find that wind production lowers power prices on average and increases volatility, not only domestically but also across borders. Using multiple counterfactuals, we examine how our results depend on the level of interconnection and find that further interconnection capacity would decrease price volatility in both countries since the benefits of a larger market would outweigh the contagion effects of volatility. Our findings have important policy implications as they demonstrate the need to coordinate support policies for renewables and policies to support transmission capacity expansion in order to mitigate the impact of volatility on power prices in neighboring power markets.



Cross-border Effects of Capacity Remuneration Mechanisms: The Swiss Case

Florian Zimmermann, Andreas Bublitz, Dogan Keles, and Wolf Fichtner

Year: 2021
Volume: Volume 42
Number: Number 2
DOI: 10.5547/01956574.42.2.fzim
View Abstract

Abstract:
In this article, cross-border effects of different market design options are analyzed using Switzerland, which is strongly interconnected to larger neighboring markets, as a case study. An investigation is conducted with an agent-based model where in one scenario, all market designs are represented according to the current legislation, and in another, energy-only markets (EOM) are assumed in all considered countries. The results show that wholesale electricity prices are highly dependent on the chosen market design and in the annual average are up to 27% higher in the EOM scenario. Due to expected larger interconnector capacities, this increase is evident in all simulated markets. Furthermore, the results indicate that the planned market design changes in the neighboring countries decrease investments in Switzerland. However, generation adequacy is still guaranteed due to the high Swiss hydropower storage capacity. Our results suggest that, under the current circumstances, a domestic mechanism in Switzerland is not required.



Assessing Improved Price Zones in Europe: Flow-Based Market Coupling in Central Western Europe in Focus

Tim Felling, Björn Felten, Paul Osinski, and Christoph Weber

Year: 2023
Volume: Volume 44
Number: Number 6
DOI: 10.5547/01956574.44.6.tfel
View Abstract

Abstract:
Theoretical papers have identified several sources of inefficiencies of flow-based market coupling (FBMC), the implicit congestion management method used to couple the Central Western European (CWE) electricity markets. These inefficiencies ultimately lead to welfare losses. In this paper, a large-scale model framework is introduced for FBMC assessments, focusing on modeling the capacity allocation and market clearing processes. The present paper completes this framework by presenting a newly developed redispatch model. Furthermore, we provide a case study assessing improved price zone configurations (PZCs) for the CWE electricity system, motivated by the debate on the currently-existing PZC. Our results show that improved PZCs—even while maintaining the number of price zones—can significantly reduce redispatch quantities and overall system costs. Moreover, making use of the insights of (Felten et al., 2021), we explain why increasing the number of price zones may not always increase welfare when using FBMC.





Begin New Search
Proceed to Checkout

 

© 2024 International Association for Energy Economics | Privacy Policy | Return Policy