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Subsidising Renewables but Taxing Storage? Second-Best Policies with Imperfect Pricing

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  • Carsten Helm

    (University of Oldenburg, Department of Economics)

  • Mathias Mier

    (ifo Institute, Munich)

Abstract

We consider an economy in which competitive firms use three technologies for electricity production: pollutive fossils, intermittent renewables like wind or solar, and storage. We determine optimal subsidies for renewables and storage capacities when carbon pricing is imperfect. This policy is efficient for low market shares of intermittent renewables in the energy system, but it turns inefficient once there are sucient renewables to partly displace fossil electricity production at times of high availability. Moreover, the subsidy scheme is substantially more complex than a first-best Pigouvian tax. The optimal renewable subsidy is always positive but tends to decrease as electricity production becomes less reliant on fossils. The optimal storage subsidy even changes its sign. It is usually negative as long as fossils contribute to lling the storage, but turns positive if fossils are used only during times of low availability of renewables. This is because more storage capacity reduces the price during times of destorage, but raises it when electricity is taken from the market to fill the storage. This has countervailing effects on firms' incentives to invest in fossil capacities, and these effects are more pronounced the higher the round-trip effciency losses during a storage cycle.

Suggested Citation

  • Carsten Helm & Mathias Mier, 2018. "Subsidising Renewables but Taxing Storage? Second-Best Policies with Imperfect Pricing," Working Papers V-413-18, University of Oldenburg, Department of Economics, revised Oct 2018.
  • Handle: RePEc:old:dpaper:413
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    Cited by:

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    2. Sai Bravo & Carole Haritchabalet, 2023. "Prosumers: Grid Storage vs Small Fuel-Cell," Working Papers hal-04119625, HAL.
    3. Mier, Mathias & Weissbart, Christoph, 2020. "Power markets in transition: Decarbonization, energy efficiency, and short-term demand response," Energy Economics, Elsevier, vol. 86(C).
    4. Jan Abrell & Sebastian Rausch & Clemens Streitberger, 2022. "The Economic and Climate Value of Flexibility in Green Energy Markets," Environmental & Resource Economics, Springer;European Association of Environmental and Resource Economists, vol. 83(2), pages 289-312, October.
    5. Meya, Jasper N. & Neetzow, Paul, 2021. "Renewable energy policies in federal government systems," Energy Economics, Elsevier, vol. 101(C).
    6. Helm, Carsten & Mier, Mathias, 2019. "On the efficient market diffusion of intermittent renewable energies," Energy Economics, Elsevier, vol. 80(C), pages 812-830.
    7. Abrell, Jan & Rausch, Sebastian & Streitberger, Clemens, 2019. "Buffering volatility: Storage investments and technology-specific renewable energy support," Energy Economics, Elsevier, vol. 84(S1).
    8. Jasper Meya & Paul Neetzow, 2019. "Renewable energy policies in federal government systems," Working Papers V-423-19, University of Oldenburg, Department of Economics, revised Jul 2019.
    9. Pommeret, Aude & Schubert, Katheline, 2022. "Optimal energy transition with variable and intermittent renewable electricity generation," Journal of Economic Dynamics and Control, Elsevier, vol. 134(C).
    10. Sai Bravo & Carole Haritchabalet, 2023. "Prosumers: Grid Storage vs Small Fuel-Cell," Working papers of Transitions Energétiques et Environnementales (TREE) hal-04119625, HAL.
    11. Nandeeta Neerunjun, 2022. "Emissions pricing instruments with intermittent renewables: second-best policy," AMSE Working Papers 2215, Aix-Marseille School of Economics, France.
    12. Nandeeta Neerunjun, 2022. "Emissions pricing instruments with intermittent renewables: second-best policy," Working Papers hal-03740013, HAL.

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