Abstract
This chapter sets the scene for the application of real options reasoning by first demonstrating the nature of energy market volatilities. Specifically, the chapter examines how supply costs differ for fossil fuel-based technologies and renewables, and how their uncorrelated volatilities hedge portfolio payoffs through variable prices. Managerial flexibility is observed to create portfolio value by not supplying when supply costs exceed energy prices, in order to avoid losses. Volumes are scaled up or down when demand varies. The choice of supplies mix is used to optimise hedges. Mixed portfolios embed a call option on rising payoffs under increasing prices or a put option on future fuel costs liabilities. These values are compared with NPVs, when fixed prices or volumes result from rigid obligations to supply.
References
Arrow, K. J. (1964). The role of securities in the optimal allocation of risk bearing. Review of Economic Studies, 31(2), 91–96.
Awerbuch, S. (2006). Portfolio based electricity generation planning: Policy implications for renewable and energy security. Mitigation and Adaptation Strategies for Global Change, 11, 693–710.
Bar-Lev, D., & Katz, S. (1976). A portfolio approach to fossil fuel procurement in the electric utility industry. The Journal of Finance, 31(3), 933–947.
Barreto, L. (2003). Gaps and needs in technology diffusion models: The perspective of an energy-systems modeller. Paper presented to the Workshop on Clean Technologies Diffusion Modelling, IPTS, Seville, 14 November 2003.
Botterud, A., & Korpås, M. (2007). A stochastic dynamic model for optimal timing of investments in new generation capacity in restructured power systems. Electrical Power & Energy Systems, 29, 163–174.
Breschi, S., Malerba, F., & Orsenigo, L. (2000). Technological regimes and Schumpeterian patterns of innovation. The Economic Journal, 110(463), 388–410.
Carlsson, B., & Stankiewicz, R. (1991). On the nature, function, and composition of technological systems. Journal of Evolutionary Economics, 1, 93–118.
Child, P. D., Ott, S. H., & Triantis, A. J. (1998). Capital budgeting for interrelated projects: A real options approach. Journal of Financial and Quantitative Analysis, 33(3), 305–334.
Crew, M. A., & Kleindorfer, P. R. (2002). Regulatory economics: Twenty years of progress? Journal of Regulatory Economics, 21(1), 5–22.
Dixit, A. K., & Pindyck, R. S. (1994). Investment under uncertainty. Princeton, NJ: Princeton University Press.
Driouchi, T., & Bennett, D. J. (2012). Real options in management and organisational strategy: A review of decision-making and performance implications. International Journal of Management Reviews, 14(1), 39–62.
Edquist, C., & Johnson, B. (1997). Institutions and organisations in systems of innovation. In C. Edquist (Ed.), Systems of innovation: Technologies, institutions and organisations. London: Pinter.
Eliasson, G., & Taymaz, E. (2002). Institutions, entrepreneurship, economic flexibility and growth—Experiments on an evolutionary micro-to-macro model. In U. Cantner (Ed.), Economic evolution, learning and complexity. Berlin: Springer.
Garud, R., Kumaraswamy, A., & Karnøe, P. (2010). Path dependence or path creation? Journal of Management Studies, 47(4), 760–774.
Gedra, T. W., & Varaiya, P. P. (1993). Markets and pricing for interruptible electric power. Institute of Electrical and Electronics Engineers Trans Power System, 8(1), 122–128.
Graham, J. R., & Harvey, H. R. (2001). The theory and practice of corporate finance: Evidence from the field. Journal of Financial Economics, 60(2–3), 187–243.
Harris, M., & Raviv, A. (1996). The capital budgeting process: Incentives and information. The Journal of Finance, 51(4), 1139–1174.
Hicks, J. R. (1964). Liquidity. Economic Journal, 72(288), 787–802.
Huh, W. T., Roundy, R., & Cakaniyilidirim, M. (2006). A general strategic capacity planning model under demand uncertainty. Naval Research Logistics, 53, 137–150.
Jacobsson, S., & Bergek, A. (2004). Transforming the energy sector: The evolution of technological systems in renewable energy technology. Industrial and Corporate Change, 13(5), 815–849.
Jaffe, A. B., Newell, R. G., & Stavins, R. N. (2005). A tale of two market failures: Technology and environmental policy. Ecological Economics, 54(2–3), 164–174.
Jaffe, A. B., & Stavins, R.N. (1995). Dynamic incentives of environmental regulations: The effects of alternative policy instruments on technology diffusion. Journal of Environmental Economics and Management, 29, S-43–S-63.
Jaillet, P., Ronn, E. I., & Tompaidis, S. (2004). Valuation of commodity-based swing options. Management Science, 50(7), 909–921.
Johnston, A., Kavali, A., & Neuhoff, K. (2008). Take-or-pay contracts for renewable deployment. Energy Policy, 36(7), 2481–2503.
Klein, B., Crawford, R. G., & Alchian, A. A. (1978). Vertical integration, appropriable rents and the competitive contracting process. Journal of Law and Economics, 74, 87–98.
Kumbaroğlu, G., Madlener, R., & Demirel, M. (2008). A real options evaluation model for the diffusion prospects of new renewable power generation technologies. Energy Economics, 30, 1882–1908.
Luiten, E., Lente, H. V., & Blok, K. (2006). Slow technologies and government intervention: Energy efficiency in industrial process technologies. Technovation, 26, 1029–1044.
Marino, A. M., & Matsusaka, J. G. (2005). Decision processes, agency problems, and information: An economic analysis of capital budgeting procedures. The Review of Financial Studies, 18(1), 301–325.
Markowitz, H. M. (1991). Portfolio selection: Efficient diversification of investments (2nd ed.). Oxford: Blackwell.
Masten, S. E., & Crocker, K. J. (1985). Efficient adaptation in long-term contracts: Take-or-pay provisions for natural gas. The American Economic Review, 75(5), 1083–1093.
Newberry, D. (2010). Market design for a large share of wind power. Energy Policy, 38, 3131–3134.
Rivier, J. A. (2010). Electricity market participation of wind farms: The success story of the Spanish pragmatism. Energy Policy, 38, 3174–3179.
Roques, F., Hiroux, C., & Saguan, M. (2010). Optimal wind power deployment in Europe—A portfolio approach. Energy Policy, 38, 3245–3256.
Roy, A. D. (1952). Safety first and the holding of assets. Econometrica, 20(3), 431–449.
Schenk, K. F., Misra, R. B., Vassos, S., & Wen, W. (1984). A new method for the evaluation of expected energy generation and loss of load probability. Power Apparatus and Systems, Institute of Electrical and Electronics Engineers Transactions, PAS-103(2), 294–303.
Sharpe, W. F. (2007). Investors and markets: Portfolio choices, asset prices, and investment advice. Princeton, NJ: Princeton University Press.
Toke, D., Breukers, S., & Wolsink, M. (2008). Wind power deployment outcomes: How can we account for the differences? Renewable and Sustainable Energy Reviews, 12(4), 1129–1147.
Van de Ven, A., & Garud, R. (1989). A framework for understanding the emergence of new industries. Research on Technological Innovation, Management and Society, 4, 195–225.
Verdolini, E., & Galeotti, M. (2011). At home and abroad: An empirical analysis of innovation and diffusion in energy technologies. Journal of Environmental Economics and Management, 61(2), 119–134.
Vergne, J. P., & Durand, R. (2010). The missing link between the theory and empirics of path dependence: Conceptual clarification, testability issue and methodological implications. Journal of Management Studies, 47(4), 736–759.
Watanabe, C., Nagamatsu, A., & Griffy-Brown, C. (2003). Behavior of technology in reducing prices of innovative goods—An analysis of the governing factors of variance of PV module prices. Technovation, 23, 423–436.
Wharton. (2016). Retrieved from http://publicpolicy.wharton.upenn.edu/live/news/1198-event-recap-marvin-odum-president-of-shell-oil. The briefing was done on 3 March 2016, prior to Odum’s retirement from Shell Oil.
Williamson, O. E. (1979). Transaction costs economics: The governance of contractual relations. Journal of Law and Economics, 22(2), 233–261.
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Barcelona, R.G. (2017). Why Flexibility. In: Energy Investments. Palgrave Macmillan, London. https://doi.org/10.1057/978-1-137-59139-5_5
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