Effiziente Auswahl von Dekarbonisierungsmaßnahmen/Efficient selection of decarbonization measures
Inhaltsverzeichnis
Bibliographische Infos

Open Access Vollzugriff
wt Werkstattstechnik online
Jahrgang 116 (2026), Heft 04
- Autor:innen:
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- Verlag
- VDI fachmedien, Düsseldorf
- Copyrightjahr
- 2026
- ISSN-Online
- 1436-4980
- ISSN-Print
- 1436-4980
Kapitelinformationen
Open Access Vollzugriff
Jahrgang 116 (2026), Heft 04
Effiziente Auswahl von Dekarbonisierungsmaßnahmen/Efficient selection of decarbonization measures
- Autor:innen:
- | | | | | |
- ISSN-Print
- 1436-4980
- ISSN-Online
- 1436-4980
- Kapitelvorschau:
Effizienter Klimaschutz ist angesichts unzureichender Emissionsreduktionen und zunehmender wirtschaftlicher Herausforderungen von hoher Relevanz. Durch die Entwicklung einer Methodik zur Identifikation sowie der ökonomisch-ökologischen Bewertung und Priorisierung von Dekarbonisierungsmaßnahmen werden wirtschaftlich effiziente Klimastrategien sichergestellt. Das Vorgehen basiert auf einer Erweiterung von Emissionsvermeidungskostenkurven durch szenariengestützte Zukunftsbetrachtung.
Literaturverzeichnis
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- [1] Pineda Perez, B.; Grijalvo, M.: Corporate Engagement with the Science Based Targets Initiative: Financial Implications and Key Motivators. ESIC Market 56 (2025) 1, e332 Google Scholar öffnen DOI: 10.37544/1436-4980-2026-04-6
- [2] Littlewood, D.; Decelis, R.; Hillenbrand, C. et al.: Examining the drivers and outcomes of corporate commitment to climate change action in European high emitting industry. Business Strategy and the Environment 27 (2018) 8, pp. 1437–1449 Google Scholar öffnen DOI: 10.37544/1436-4980-2026-04-6
- [3] Hilson, C.: Climate change and the politicization of ESG in the US. Frontiers in Political Science 6 (2024), #1332399, https://doi.org/10.3389/fpos.2024.1332399 Google Scholar öffnen DOI: 10.37544/1436-4980-2026-04-6
- [4] Europäische Kommission: Omnibus package. Commission launched simplification package in February as part of increased focus on EU competitiveness. Internet: finance.ec.europa.eu/news/omnibus- package-2025–04–01_en. Zugriff am 18.03.2026 Google Scholar öffnen DOI: 10.37544/1436-4980-2026-04-6
- [5] Roland Berger: Businesses need strategies to switch to low-carbon or carbon-neutral production processes. Stand: 2019. Internet: www.rolandberger.com/en/Insights/Publications/Climate-protection-in-the-manufacturing-sector-Challenges-and-solutions.html. Zugriff am 18.03.2026 Google Scholar öffnen DOI: 10.37544/1436-4980-2026-04-6
- [6] Kiemel, S.; Schäfer, S. F.; Dokur, Y. D. et al.: Current State and Best Practices on the Way to Zero Emission in the Manufacturing Industry: An Empirical Survey in the Germany-Austria-Switzerland Region. Procedia CIRP 116 (2023), pp. 432–437 Google Scholar öffnen DOI: 10.37544/1436-4980-2026-04-6
- [7] Fawzy, S.; Osman, A. I.; Doran, J. et al.: Strategies for mitigation of climate change: a review. Environmental Chemistry Letters 18 (2020) 6, pp. 2069–2094 Google Scholar öffnen DOI: 10.37544/1436-4980-2026-04-6
- [8] BDO & Kirchhoff: DACH-Studie 2024. Klimaschutz – Reporting zur Dekarbonisierung, 2024, Internet: www.kirchhoff.de/fileadmin/static/pdfs/2024_news/2024_10_14_DAX160_Studie_Teil_2.pdf. Zugriff am 18.03.2026 Google Scholar öffnen DOI: 10.37544/1436-4980-2026-04-6
- [9] Europäisches Parlament und Europarat: Sorgfaltspflichten von Unternehmen im Hinblick auf Nachhaltigkeit und zur Änderung der Richtlinie (EU) 2019/1937 und der Verordnung (EU) 2023/2859. CSDDD. Stand: 2024, Internet: eur-lex.europa.eu/legal-content/DE/TXT/HTML/?uri=OJ:L_202401760#art_22. Zugriff am 18.03.2026 Google Scholar öffnen DOI: 10.37544/1436-4980-2026-04-6
- [10] WBCSD & WRI: The Greenhouse Gas Protocol. A Corporate Accounting and Reporting Standard. Stand: 2015, Internet: ghgprotocol.org/sites/default/files/standards/ghg-protocol-revised.pdf. Zugriff am 18.03.2026 Google Scholar öffnen DOI: 10.37544/1436-4980-2026-04-6
- [11] Rentschler, M.; Kiemel, S.; Miehe, R.: Requirement Engineering for Effectively Assessing and Prioritizing Emission Reduction Measures to achieve Net Zero in Enterprises. Procedia CIRP 135 (2025), pp. 1009–1014 Google Scholar öffnen DOI: 10.37544/1436-4980-2026-04-6
- [12] Enkvist, P.-A.; Nauclér, T.; Rosander, J.: A cost curve for greenhouse gas reduction. The McKinsey Quarterly (2007) 01/20027 Google Scholar öffnen DOI: 10.37544/1436-4980-2026-04-6
- [13] Misconel, S.; Prina, M. G.; Hobbie, H. et al.: Model-based step-wise marginal CO2 abatement cost curves to determine least-cost decarbonization pathways for sector-coupled energy systems. Journal of Cleaner Production 368 (2022), #133173 Google Scholar öffnen DOI: 10.37544/1436-4980-2026-04-6
- [14] Vogt-Schilb, A.; Hallegatte, S.: Marginal abatement cost curves and the optimal timing of mitigation measures. Energy Policy 66 (2014), pp. 645–653 Google Scholar öffnen DOI: 10.37544/1436-4980-2026-04-6
- [15] Eory, V.; Pellerin, S.; Carmona Garcia, G. et al.: Marginal abatement cost curves for agricultural climate policy: State-of-the art, lessons learned and future potential. Journal of Cleaner Production 182 (2018), pp. 705–716 Google Scholar öffnen DOI: 10.37544/1436-4980-2026-04-6
- [16] Ibrahim, N.; Kennedy, C.: A Methodology for Constructing Marginal Abatement Cost Curves for Climate Action in Cities. Energies 9 (2016) 4, #227 Google Scholar öffnen DOI: 10.37544/1436-4980-2026-04-6
- [17] Harmsen, J.; van Vuuren, D. P.; Nayak, D. R. et al.: Long-term marginal abatement cost curves of non-CO2 greenhouse gases. Environmental Science & Policy 99 (2019), pp. 136–149 Google Scholar öffnen DOI: 10.37544/1436-4980-2026-04-6
- [18] Kesicki, F.; Ekins, P.: Marginal abatement cost curves: a call for caution. Climate Policy 12 (2012) 2, pp. 219–236 Google Scholar öffnen DOI: 10.37544/1436-4980-2026-04-6
- [19] Kesicki, F.; Strachan, N.: Marginal abatement cost (MAC) curves: confronting theory and practice. Environmental Science & Policy 14 (2011) 8, pp. 1195–1204 Google Scholar öffnen DOI: 10.37544/1436-4980-2026-04-6
- [20] Gillingham, K.; Stock, J. H.: The Cost of Reducing Greenhouse Gas Emissions. Journal of Economic Perspectives 32 (2018) 4, pp. 53–72 Google Scholar öffnen DOI: 10.37544/1436-4980-2026-04-6
- [21] Longva, T.; Eide, M. S.; Endresen, Ø. et al.: Marginal abatement cost curves for CO2 emission reduction from shipping to 2050. Maritime Transport Research 6 (2024), #100112 Google Scholar öffnen DOI: 10.37544/1436-4980-2026-04-6
- [22] Gusti, M.; Forsell, N.; Havlik, P. et al.: The sensitivity of the costs of reducing emissions from deforestation and degradation (REDD) to future socioeconomic drivers and its implications for mitigation policy design. Mitigation and Adaptation Strategies for Global Change 24 (2019) 6, pp. 1123–1141 Google Scholar öffnen DOI: 10.37544/1436-4980-2026-04-6
- [23] Barron, A. R.; Fawcett, A. A.; Hafstead, M. A. C. et al.: Policy insights from the emf 32 study on U.S. carbon tax scenarios. Climate change economics 9 (2018) 1, https://doi.org/10.1142/S2010007818400031 Google Scholar öffnen DOI: 10.37544/1436-4980-2026-04-6
- [24] Umweltbundesamt: Wirtschaftlichkeit neu denken. Investitionsentscheidungen im Dienste des Umweltschutzes. Stand: 2021. Internet: www.umweltbundesamt.de/sites/default/files/medien/479/publikationen/texte_179–2021_wirtschaftlichkeit_neu_denken.pdf. Zugriff am 18.03.2026 Google Scholar öffnen DOI: 10.37544/1436-4980-2026-04-6
- [25] Munich Business School: Amortisation. Stand: 26.08.2025. Internet: www.munich-business-school.de/en/l/business-studies- dictionary/financial-knowledge/amortization. Zugriff am 18.03.2026 Google Scholar öffnen DOI: 10.37544/1436-4980-2026-04-6
- [26] Science Based Targets Initiative: SBTi Corporate Near-Term Criteria. Stand: 2025. Internet: files.sciencebasedtargets.org/production/files/SBTi-criteria.pdf. Zugriff am 18.03.2026 Google Scholar öffnen DOI: 10.37544/1436-4980-2026-04-6
- [27] Science Based Targets Initiative: SBTi Corporate Net-Zero Standard. Version 1.3. Stand: 2025. Internet: files.sciencebasedtargets.org/production/files/Net-Zero-Standard.pdf?dm=1757950109. Zugriff am 18.03.2026 Google Scholar öffnen DOI: 10.37544/1436-4980-2026-04-6
