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Modeling the Evolution of Carbon Intensity: Linking the Solow Model to the Transport Equation

Author

Listed:
  • Pablo Garcia Sanchez

    (Banque centrale du Luxembourg, Departement Economie et Recherche)

  • Olivier Pierrard

    (Banque centrale du Luxembourg, epartement Economie et Recherche)

Abstract

While a sustained contraction of global production could lower total carbon emissions, it would hamper economic development in poorer countries, reduce living standards for low-income households in advanced economies, and heighten the risk of social unrest. Therefore, reducing carbon intensity - emissions per unit of output - appears to be the most viable and sustainable path forward. We make two contributions: one empirical and one theoretical We make two contributions: one empirical and one theoretical. Empirically, we show that the transport equation, a basic partial differential equation from physics, captures well the evolution of the distribution of carbon intensities across major economies since 1995. Theoretically, we show that in an extended Solow model with abatement capital, the distribution of carbon intensity across a continuum of economies follows the dynamics described by the transport equation. Moreover, this theory-backed version remains empirically plausible under standard parameter values. In addition, unlike its empirical counterpart, it enables projections of emissions and temperature increases under various policy scenarios, aligning closely with forecasts by leading institutions.

Suggested Citation

  • Pablo Garcia Sanchez & Olivier Pierrard, 2025. "Modeling the Evolution of Carbon Intensity: Linking the Solow Model to the Transport Equation," LIDAM Discussion Papers IRES 2025006, Université catholique de Louvain, Institut de Recherches Economiques et Sociales (IRES).
    • Handle: RePEc:ctl:louvir:2025006
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    File URL: https://sites.uclouvain.be/econ/DP/IRES/2025006.pdf
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    More about this item

    Keywords

    Carbon intensity; Transport equation; Solow model;
    All these keywords.

    JEL classification:

    • O44 - Economic Development, Innovation, Technological Change, and Growth - - Economic Growth and Aggregate Productivity - - - Environment and Growth
    • Q50 - Agricultural and Natural Resource Economics; Environmental and Ecological Economics - - Environmental Economics - - - General

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