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Banning incandescent light bulbs in the shadow of the EU Emissions Trading Scheme

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  • Grischa Perino
  • Thomas Pioch

Abstract

The light bulb ban introduced by the EU is used as an example to illustrate how to assess the climate impact of a policy that overlaps with a cap-and-trade scheme. The European Commission estimates that by 2020 the reduction in GHG emissions induced by banning incandescent light bulbs will reach 15 million tons annually. The number is a conservative estimate for the reduction in emissions from lighting if the total residential stock of incandescent light bulbs in 2008 is replaced by more efficient lighting sources. However, it ignores that use-phase and some non-use-phase emissions are covered by the EU Emission Trading Scheme (EU ETS). This drastically reduces the amount of GHG emissions saved.Policy relevanceSeveral policies such as the EU-wide ban on incandescent light bulbs, energy efficiency mandates and support mechanisms for renewable energy overlap with the EU ETS. While there are typically several justifications for these policies, a chief reason is the reduction of GHG emissions. However, given that the aggregate emissions of the industries covered are fixed by the EU ETS, the climate change mitigation aspect of these policies is not obvious. Using the light bulb ban as an example, this article illustrates how a focus on non-EU ETS emissions changes the assessment of an intervention in terms of GHG reductions.

Suggested Citation

  • Grischa Perino & Thomas Pioch, 2017. "Banning incandescent light bulbs in the shadow of the EU Emissions Trading Scheme," Climate Policy, Taylor & Francis Journals, vol. 17(5), pages 678-686, July.
    • Handle: RePEc:taf:tcpoxx:v:17:y:2017:i:5:p:678-686
    DOI: 10.1080/14693062.2016.1164657
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    Cited by:

    1. Marcel Neberich & Frank Opferkuch, 2021. "Standardizing Melanopic Effects of Ocular Light for Ecological Lighting Design of Nonresidential Buildings—An Overview of Current Legislation and Accompanying Scientific Studies," Sustainability, MDPI, vol. 13(9), pages 1-23, May.
    2. Alhazmi, Mansour & Sailor, David J. & Levinson, Ronnen, 2023. "A review of challenges, barriers, and opportunities for large-scale deployment of cool surfaces," Energy Policy, Elsevier, vol. 180(C).
    3. Lin, Boqiang & Jia, Zhijie, 2018. "The energy, environmental and economic impacts of carbon tax rate and taxation industry: A CGE based study in China," Energy, Elsevier, vol. 159(C), pages 558-568.
    4. Nihal Ahmed & Adnan Ahmed Sheikh & Zeeshan Hamid & Piotr Senkus & Ricardo Cosio Borda & Aneta Wysokińska-Senkus & Waldemar Glabiszewski, 2022. "Exploring the Causal Relationship among Green Taxes, Energy Intensity, and Energy Consumption in Nordic Countries: Dumitrescu and Hurlin Causality Approach," Energies, MDPI, vol. 15(14), pages 1-15, July.
    5. Aiwen Zhao & Xiaoqian Song & Jiajie Li & Qingchun Yuan & Yingshun Pei & Ruilin Li & Michael Hitch, 2023. "Effects of Carbon Tax on Urban Carbon Emission Reduction: Evidence in China Environmental Governance," IJERPH, MDPI, vol. 20(3), pages 1-19, January.

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