DOI: 10.12924/cis2017.05020001 |Publication Date: 8 May 2017

An Economic Simulation of the Path to Sustainable Energy: A Dynamic Analysis

Charles F. Mason 1, 2, * and Rémi Morin Chassé 3
1 Department of Economics and Finance, University of Wyoming, Laramie, USA
2 Grantham Research Institute, London School of Economics, London, UK
3 Department of Economics, University of Prince Edward Island, Charlottetown, Canada
* Corresponding author
Abstract: The existing economics literature neglects the important role of capacity in the production of renewable energy. To fill this gap, we construct a model in which renewable energy production is tied to renewable energy capacity, which then becomes a form of capital. This capacity capital can be increased through investment, which we interpret as arising from the allocation of energy, and which therefore comes at the cost of reduced general production. Requiring societal well-being to never decline—the notion of sustainability favored by economists—we describe how society could optimally elect to split energy in this fashion, the use of non-renewable energy resources, the use of renewable energy resources, and the implied time path of societal well-being. Our model delivers an empirically satisfactory explanation for simultaneous use of non-renewable and renewable energy. We also discuss the optimality of ceasing use of non-renewable energy before the non-renewable resource stock is fully exhausted.

Keywords: non-renewable resource; renewable energy; sustainability

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