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Long-term endogenous economic growth and energy transitions

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  • Victor Court
  • Pierre-André Jouvet
  • Frédéric Lantz

Abstract

This article builds a bridge between the endogenous economic growth theory, the biophysical economics perspective, and the past and future transitions between renewable and nonrenewable energy forms that economies have had to and will have to accomplish. We provide an endogenous economic growth model subject to the physical limits of the real world, meaning that nonrenewable and renewable energy production costs have functional forms that respect physical constraints, and that technological level is precisely defned as the effciency of primary-to-useful exergy conversion. The model supports the evidence that historical productions of renewable and nonrenewable energy have greatly infuenced past economic growth. Indeed, from an initial almost-renewable-only supply regime we reproduce the increasing reliance on nonrenewable energy that has allowed the global economy to leave the state of economic stagnation that had characterized the largest part of its history. We then study the inevitable transition towards complete renewable energy that human will have to deal with in a not-too-far future since nonrenewable energy comes by defnition from a fnite stock. Through simulation we study in which circumstances this transition could have negative impacts on economic growth (peak followed by degrowth phase). We show that the implementation of a carbon price can partially smooth such unfortunate dynamics, depending on the ways of use of the income generated by the carbon pricing.

Suggested Citation

  • Victor Court & Pierre-André Jouvet & Frédéric Lantz, 2018. "Long-term endogenous economic growth and energy transitions," The Energy Journal, International Association for Energy Economics, vol. 0(Number 1).
    • Handle: RePEc:aen:journl:ej39-1-court
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    2. King, Carey W., 2020. "An integrated biophysical and economic modeling framework for long-term sustainability analysis: the HARMONEY model," Ecological Economics, Elsevier, vol. 169(C).
    3. Lukáš Režný & Vladimír Bureš, 2019. "Energy Transition Scenarios and Their Economic Impacts in the Extended Neoclassical Model of Economic Growth," Sustainability, MDPI, vol. 11(13), pages 1-25, July.
    4. Court, Victor & Fizaine, Florian, 2017. "Long-Term Estimates of the Energy-Return-on-Investment (EROI) of Coal, Oil, and Gas Global Productions," Ecological Economics, Elsevier, vol. 138(C), pages 145-159.
    5. Elise Dupont & Marc Germain & Hervé Jeanmart, 2021. "Feasibility and Economic Impacts of the Energy Transition," Sustainability, MDPI, vol. 13(10), pages 1-34, May.
    6. Aramendia, Emmanuel & Brockway, Paul E. & Pizzol, Massimo & Heun, Matthew K., 2021. "Moving from final to useful stage in energy-economy analysis: A critical assessment," Applied Energy, Elsevier, vol. 283(C).
    7. Benjamin Leiva & Octavio Ramirez & John R. Schramski, 2018. "A theoretical framework to consider energy transfers within growth theory," Papers 1812.05091, arXiv.org.
    8. Emmanuel Bovari & Victor Court, 2019. "Energy, knowledge, and demo-economic development in the long run: a unified growth model," Université Paris1 Panthéon-Sorbonne (Post-Print and Working Papers) hal-01698755, HAL.
    9. Bartłomiej Bajan & Joanna Łukasiewicz & Agnieszka Poczta-Wajda & Walenty Poczta, 2021. "Edible Energy Production and Energy Return on Investment—Long-Term Analysis of Global Changes," Energies, MDPI, vol. 14(4), pages 1-16, February.
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    11. Jean-François Fagnart & Marc Germain & Benjamin Peeters, 2020. "Can the Energy Transition Be Smooth? A General Equilibrium Approach to the EROEI," Sustainability, MDPI, vol. 12(3), pages 1-29, February.

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