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Bidirectional coupling of a long-term integrated assessment model REMIND v3.0.0 with an hourly power sector model DIETER v1.0.2

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  • Chen Chris Gong
  • Falko Ueckerdt
  • Robert Pietzcker
  • Adrian Odenweller
  • Wolf-Peter Schill
  • Martin Kittel
  • Gunnar Luderer

Abstract

Integrated assessment models (IAMs) are a central tool for the quantitative analysis of climate change mitigation strategies. However, due to their global, cross-sectoral and centennial scope, IAMs cannot explicitly represent the spatio-temporal detail required to properly analyze the key role of variable renewable electricity (VRE) for decarbonizing the power sector and end-use electrification. In contrast, power sector models (PSMs) incorporate high spatio-temporal resolutions, but tend to have narrower scopes and shorter time horizons. To overcome these limitations, we present a novel methodology: an iterative and fully automated soft-coupling framework that combines the strengths of a IAM and a PSM. This framework uses the market values of power generation as well as the capture prices of demand in the PSM as price signals that change the capacity and power mix of the IAM. Hence, both models make endogenous investment decisions, leading to a joint solution. We apply the method to Germany in a proof-of-concept study using the IAM REMIND and the PSM DIETER, and confirm the theoretical prediction of almost-full convergence both in terms of decision variables and (shadow) prices. At the end of the iterative process, the absolute model difference between the generation shares of any generator type for any year is

Suggested Citation

  • Chen Chris Gong & Falko Ueckerdt & Robert Pietzcker & Adrian Odenweller & Wolf-Peter Schill & Martin Kittel & Gunnar Luderer, 2022. "Bidirectional coupling of a long-term integrated assessment model REMIND v3.0.0 with an hourly power sector model DIETER v1.0.2," Papers 2209.02340, arXiv.org, revised Oct 2022.
    • Handle: RePEc:arx:papers:2209.02340
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    1. Reuß, M. & Grube, T. & Robinius, M. & Preuster, P. & Wasserscheid, P. & Stolten, D., 2017. "Seasonal storage and alternative carriers: A flexible hydrogen supply chain model," Applied Energy, Elsevier, vol. 200(C), pages 290-302.
    2. Jessica Strefler & Elmar Kriegler & Nico Bauer & Gunnar Luderer & Robert C. Pietzcker & Anastasis Giannousakis & Ottmar Edenhofer, 2021. "Alternative carbon price trajectories can avoid excessive carbon removal," Nature Communications, Nature, vol. 12(1), pages 1-8, December.
    3. Max Callaghan & Carl-Friedrich Schleussner & Shruti Nath & Quentin Lejeune & Thomas R. Knutson & Markus Reichstein & Gerrit Hansen & Emily Theokritoff & Marina Andrijevic & Robert J. Brecha & Michael , 2021. "Machine-learning-based evidence and attribution mapping of 100,000 climate impact studies," Nature Climate Change, Nature, vol. 11(11), pages 966-972, November.
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