Energy Journal Issue

The Energy Journal
Volume 30, Number 4



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Willingness-to-Pay for Quality of Service: An Application to Efficiency Analysis of the UK Electricity Distribution Utilities

William Yu, Tooraj Jamasb, Michael Pollitt

DOI: 10.5547/ISSN0195-6574-EJ-Vol30-No4-1
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Abstract:
Efficiency analysis of electricity distribution networks is often limited to technical or cost efficiency measures. However, some important non-tradable aspects of their service such as quality of service and network energy losses are often not part of the analysis. Moreover, technical or cost efficiency should not be achieved at the expense of allocative and economic efficiency. Valuation of service quality for regulatory models is particularly difficult. This paper presents an empirical approach to measure and incorporate service quality and energy losses into the analysis of technical and allocative efficiency of the utilities. We apply our method to the case of the distribution networks in the UK between 1990/91 and 2003/04 using the data envelopment analysis technique. We find that the efficiency of the utilities improved during the first and second five-year distribution price control reviews but exhibited a slight decline during the third review period. We find relatively low allocative efficiency � i.e. a mismatch in allocating resources among expenditures, service quality, and network energy losses. The results suggest that currently the utilities may not be correctly incentivised to achieve socially optimal trade-offs between these.




Demand Subsidies Versus R&D: Comparing the Uncertain Impacts of Policy on a Pre-commercial Low-carbon Energy Technology

Gregory F. Nemet and Erin Baker

DOI: 10.5547/ISSN0195-6574-EJ-Vol30-No4-2
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Abstract:
We combine an expert elicitation and a bottom-up manufacturing cost model to compare the effects of R&D and demand subsidies. We model their effects on the future costs of a low-carbon energy technology that is not currently commercially available, purely organic photovoltaics (PV). We find that: (1) successful R&D enables PV to achieve a cost target of 4c/kWh, (2) the cost of PV does not reach the target when only subsidies, and not R&D, are implemented, and (3) production-related effects on technological advance�learning-by-doing and economies of scale�are not as critical to the long-term potential for cost reduction in organic PV than is the investment in and success of R&D. These results are insensitive to two levels of policy intensity, the level of a carbon price, the availability of storage technology, and uncertainty in the main parameters used in the model. However, a case can still be made for subsidies: comparisons of stochastic dominance show that subsidies provide a hedge against failure in the R&D program.




Interregional Sharing of Energy Conservation Targets in China: Efficiency and Equity

Dan Wei and Adam Rose

DOI: 10.5547/ISSN0195-6574-EJ-Vol30-No4-3
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Abstract:
Energy conservation is a long-term strategic policy in China to support its economic and social development. This strategy is important for saving resources, protecting the environment, and ensuring a secure supply of energy. However, energy conservation often involves large amounts of investment and may also have dampening impacts on some local and regional economies. Moreover, energy conservation has many features of a public good. Therefore, government policy will have to play a strong role to foster local efforts and interregional cooperation on this issue. This paper analyzes a promising policy instrument � an interregional energy conservation-quota trading system. An operational model is developed to simulate the workings of this policy instrument for a variety of quota allocations among regions. The results indicate that a tradable quota system can help China achieve its conservation target in a cost-effective way and in accordance with its regional development strategy.




Green Accounting for Black Gold

Robert D. Cairns

DOI: 10.5547/ISSN0195-6574-EJ-Vol30-No4-4
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Abstract:
In the petroleum industry, valid green economic accounting magnitudes are influenced by natural and other constraints on production, by non-convexity of technology and by non-optimality of output. The paper undertakes an economic analysis of oil extraction that explicitly represents the conditions and constraints that influence the decisions of a firm. This microeconomic analysis diverges from conventional, �Hotelling� macroeconomic models of nonrenewable-resource extraction and has substantially different findings. Optimality conditions such as Hotelling�s rule or first-order conditions are not utilized in defining accounting statistics. Contrary to the findings of many studies, it is found that traditional (non-green) accounting practice for commercial natural resources such as petroleum sensibly balances the aims of economic accounting. Instead, adjustments to practice are most needed for non-commercial values such as pollution or amenities.




Revisiting the Inflationary Effects of Oil Prices

Shiu-Sheng Chen

DOI: 10.5547/ISSN0195-6574-EJ-Vol30-No4-5
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Abstract:
This paper uses a structural vector autoregression model to investigate the inflationary effects of oil prices. Rather than simply infer the oil price changes as oil supply shocks, we identify three different shocks in the crude oil market: the oil supply shock, the global aggregate demand shock, and the oil-market specific demand shock. We then use impulse response functions to compute the conditional oil price pass-through ratios. It is found that the largest oil price pass-through is caused by oil supply shocks. However, evidence from historical decompositions suggests that the oil price movements have been driven by shocks from strong global aggregate demand and oil demand while only minor contributions come from oil supply shocks. Disentangling demand and supply shocks in the crude oil market helps to uncover the fact that a recent decline in unconditional oil price pass-through may come from the low conditional pass-through caused by global demand shocks.




Modeling Optimal Economic Dispatch and System Effects in Natural Gas Networks

Kjetil T. Midthun, Mette Bjorndal and Asgeir Tomasgard

DOI: 10.5547/ISSN0195-6574-EJ-Vol30-No4-6
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Abstract:
In this paper we present a modeling framework for analyzing natural gas markets, taking into account the specific technological issues of gas transportation. We model the optimal dispatch of supply and demand in natural gas networks, with different objective functions, i.e., maximization of flow, and different economic surpluses. The models take into account the physical structure of the transportation networks, and examine the implications it has for economic analysis. More specifically, pressure constraints create system effects, and thus, changes in one part of the system may require significant changes elsewhere. The proposed network flow model for natural gas takes into account pressure drops and system effects when representing network flows. Pressure drops and pipeline flows are modeled by the Weymouth equation. A linearization of the Weymouth equation makes economic analyses computationally feasible even for large networks. However, in this paper, the importance of combining economics with a model for pressure drops and system effects is illustrated by small numerical examples.










 

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