Assessing energy supply security: Outage costs in private households

The objective of this paper is to contribute to the topic of energy supply security by proposing a Monte Carlo-based and a survey based model to analyze the costs of power interruptions. Outage cost estimations are particularly important when deciding on investments to improve supply security (e.g. additional transmission lines) in order to compare costs to benefits. But also other policy decisions on measures that have direct or indirect consequences for the supply security (e.g. a phasing out of nuclear energy) need to be based on results from outage cost estimations. The main focus of this paper lies with residential consumers, but the model is applied to commercial, industrial and governmental consumers as well. There are limited studies that have approached the problem of evaluating outage cost. When comparing the results of these studies, they often display a high degree of diversification. As consumers have different needs and dependencies towards the supply of electricity because of varying circumstances and preferences, a great diversity in outage cost is a logical consequence. To take the high degree of uncertainties into account, a Monte Carlo simulation was conducted in this study for the case of private households in Germany.

[1]  M. J. Sullivan,et al.  Outage cost estimation guidebook , 1995 .

[2]  K. Arrow Essays in the theory of risk-bearing , 1958 .

[3]  G. Jenkins,et al.  EVALUATION OF AN EXPANSION OF THE ELECTRICITY TRANSMISSION SYSTEM IN MEXICO , 1999 .

[4]  G. Becker,et al.  The Economic Approach to Human Behavior , 1978 .

[5]  Luca Lo Schiavo,et al.  The use of customer outage cost surveys in policy decision-making: The Italian experience in regulating quality of electricity supply , 2005 .

[6]  N. Stern The Economics of Climate Change: Implications of Climate Change for Development , 2007 .

[7]  R. Billinton,et al.  Approximate methods for event-based customer interruption cost evaluation , 2005, IEEE Transactions on Power Systems.

[8]  K. Samdal,et al.  Customer Costs Related to Interruptions and Voltage Problems: Methodology and Results , 2008, IEEE Transactions on Power Systems.

[9]  M. D. Nooij,et al.  The value of supply security The cost of power interruptions: Economic input for damage reduction and investment in networks , 2007 .

[10]  J. Eto,et al.  A framework and review of customer outage costs: Integration and analysis of electric utility outage cost surveys , 2003 .

[11]  S. Stoft Power System Economics: Designing Markets for Electricity , 2002 .

[12]  Richard S. J. Tol,et al.  The Value of Lost Load , 2007 .

[13]  George Gross,et al.  Value of service reliability , 1990 .

[14]  Balbir S. Dhillon,et al.  Applied Reliability and Quality , 2007 .

[15]  J. Pratt RISK AVERSION IN THE SMALL AND IN THE LARGE11This research was supported by the National Science Foundation (grant NSF-G24035). Reproduction in whole or in part is permitted for any purpose of the United States Government. , 1964 .

[16]  Arun P. Sanghvi,et al.  Economic costs of electricity supply interruptions: US and foreign experience , 1982 .

[17]  Jeffrey D. Sachs,et al.  Development Discussion Papers , 1997 .

[18]  J. Hop,et al.  Pricing power outages in the Netherlands , 2009 .

[19]  Karstein Brekke,et al.  European energy regulators' view on EN 50160 and highlights of the 4th CEER Benchmarking Report on Quality of Electricity Supply , 2009 .

[20]  A. Maslow A Theory of Human Motivation , 1943 .

[21]  Richard S. J. Tol,et al.  An Estimate of the Value of Lost Load for Ireland , 2011 .

[22]  P. Balducci,et al.  Electric Power Interruption Cost Estimates for Individual Industries, Sectors, and the U.S. Economy , 2003 .

[23]  Roland Anderson,et al.  The social cost of unsupplied electricity : A critical review , 1986 .