Please use this identifier to cite or link to this item: https://hdl.handle.net/10419/103282 
Year of Publication: 
2011
Series/Report no.: 
EWL Working Paper No. 05/11
Publisher: 
University of Duisburg-Essen, Chair for Management Science and Energy Economics, Essen
Abstract: 
In this article we discuss welfare-optimal capacity allocation of different electricity generation technologies available for serving system demand. While the classical peak load pricing theory derives the efficient portfolio structure from a deterministic marginal production cost curve ("merit order"), we investigate in particular the implications of possible reversals in the merit order —sometimes also referred to as fuel switch risks- induced by uncertain operating costs. We propose a static, non-convex optimization model combining the classic peak load pricing model with elements of mean-variance portfolio (MVP) theory and analytically discuss possible solution cases and important optimality properties. We examine the approach in a case study on the efficient structure of generation portfolios consisting of CCGT and hard coal technologies in Germany. With special emphasis, we study the emergence of overcapacities (exceeding maximal demand) in efficient portfolios and show that diversification is not beneficial per-se. The results show that the efficient technology mix may be significantly impacted by a risk for reversals in the merit order. Therefore, our findings support the importance of considering this risk factor especially with long-term investment horizons. The model is applicable to various investment problems related to production of nonstorable goods under price uncertainty of input factors. Similar problems can e.g. be found in transportation systems or in the process industry.
Subjects: 
power plant investments
peak load pricing
mean-variance portfolio theory
fuel mix diversification
JEL: 
G11
L94
Q43
C44
Document Type: 
Working Paper

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