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Purpose: in the cognitive space, the article focuses on the issue of sustainable methane emissions, which can be seen as an approach aimed at controlling and reducing methane emissions into the atmosphere in a way that takes into account the balance between the emission and removal of this gas, in order to reduce its impact on climate change. Methodology: the theses presented in the article were verified using the following methods: literature review, critical analysis of literature, analysis and comparison of documents and an example of good practices. Result: in recent years, issues related to sustainable development and environmental protection have become central topics in the international arena. One of the key elements of this debate is the role of methane as a greenhouse gas and the question of whether its use can contribute to sustainable development or pose a potential threat to the environment. Originality: the key task is to develop a strategy that will allow for the effective use of methane while minimizing negative effects on the environment. Innovative technologies, stringent regulations and international cooperation are the key to achieving this goal and turning the use of methane into an opportunity for sustainable global development.
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Tom
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189--202
Opis fizyczny
Bibliogr. 34 poz.
Twórcy
autor
- Central Mining Institute, National Research Institute, Katowice
autor
- Central Mining Institute, National Research Institute, Katowice
Bibliografia
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- 2. An official website of the United States government, https://www.epa.gov/gmi/importance-methane, 23.10.2023.
- 3. Azar, C.H., García Martín, J., Johansson, D.J.A., Sterner, T. (2023). The social cost of methane. Climatic Change.
- 4. Brauers, H. (2022). Natural gas as a barrier to sustainability transitions? A systematic mapping of the risks and challenges Author links open overlay panel. Energy Research & Social Science, Vol. 89.
- 5. Bredariol the Oliveira, T., McGlade, Ch. Methane Abatement, https://www.iea.org/energy-system/fossil-fuels/methane-abatement, 5.10.2023.
- 6. Country Profiles. The Carbon Brief Profile: India. Carbon Brief 2019, https://www.carbonbrief.org/the-carbon-brief-profile-india/, 21.10.2023.
- 7. Emran, B.J., Tannant, D.D., Najjaran, H. (2017). How-Altitude Aerial Methane Concentration Mapping. Remote Sens.
- 8. Favre, H.A., Powell, W.H. (eds.) (2013). Nomenklatura związków organicznych Rekomendacje IUPAC i nazwy preferowane. Montreal, Canada; Columbus, OH, USA.
- 9. Global Methane Tracker (2022). Strategies to reduce emissions from fossil fuel operations, https://www.iea.org/reports/global-methane-tracker-2022/strategies-to-reduce-emissions-from-fossil-fuel-operations#abstract, 13.10.2023.
- 10. Hassa, R. et al. (ed.) (2004). Podręczny słownik chemiczny. Katowice: Videograf II.
- 11. Hoglund-Isaksson, L. (2012). Global anthropogenic methane emissions 2005-2030: technical mitigation potentials and costs. Atmospheric Chemistry and Physics, 12, 9079-9096.
- 12. https://www.ccacoalition.org/en/resources/global-methane-pledge
- 13. https://www.epa.gov/superfund/abandoned-mine-lands, 10.10.2023.
- 14. Krueger, A.O. (2023). Trade disrupted. IMF+WTO chiefs on trade’s future. Global economics at your fingertips IMF.org/pubs. International Monetary Fund.
- 15. Launay-Smirnov, A. Why the world must act on coal mine methane. Chartered Financial Analyst USA, https://ember-climate.org/insights/commentary/why-the-world - must-act-on-coal-mine-methane/, 13.10.2023.
- 16. Mar, A., Unger, Ch., Walderdorff, L., Butler, T. (2022). Beyond CO2 equivalence: The impacts of methane on climate, ecosystems, and health. Environmental Science & Policy, Vol. 134.
- 17. Masson-Delmotte et al. (2021). Climate Change 2021. The Physical Science Basis Working Group I Contribution to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change. Alisy Singer.
- 18. Methane Report (2022). USA: Chevron Corporation.
- 19. Net Zero Strategy (2021). Build Back Greener. OGL Crown.
- 20. Nosalewicz, M., Brzezińska, M., Pasztelan, M., Supryn, G. (2011). Methane in the environment. Acta Agrophysica, 18(2).
- 21. Olczak, M., Piebalgs, A. (2020). Methane Emission Reduction – An Important Step in Strengthening the Sustainability Dimension in Gas Network Companies. European University Institute.
- 22. Pathway to a Cleaner Energy Future (2021). Climate Report. 2021 WEC Energy Group.
- 23. Program Narodów Zjednoczonych ds. Środowiska (UNEP).
- 24. Questions and answers: An EU Methane Strategy, 4 October 2020, Brussels.
- 25. Raport ESG Respect Energy. Poland 2022.
- 26. Rogelj, J., Geden, O., Cowie, A., Reisinger, A. (2021). Three ways to improve net-zero emissions targets. Nature, Vol. 591.
- 27. Shivanna, K.R. (2022). Climate change and its impact on biodiversity and human welfare. Proceedings of the Indian National Science Academy.
- 28. Sobczak, A., Chomać-Pierzecka, A., Kokiel, A., Rózycka, M., Stasiak, J., Soboń, D. (2022). Economic Conditions of Using Biodegradable Waste for Biogas Production, Using the Example of Poland and Germany. Energies, 15, 5239.
- 29. The White House. The Build Back Better Framework. Retrieved: November 14, 2021.
- 30. Wang, F. et al. (2021). Technologies and perspectives for achieving carbon neutrality. The Innovatoion, Vol. 2, Iss. 4.
- 31. Wang, Z., Li, S., Jin, Z., Li, Z., Liu, Q., Zhang, K. (2023). Oil and gas pathway to net-zero. Energy Strategy, Vol. 45.
- 32. Wpływ wojny na Ukrainie na rynki energii strefy euro. https:// www.ecb.europa.eu/pub/ economicbulletin/focus/2022/html/ecb.ebbox20220401~68ef3c3dc6..html, 24.10.2023.
- 33. Zerowe emisje netto do 2050 r. Plan działania dla globalnego sektora energii. Tłumaczenie wykonane przez Ministerstwo Klimatu i Środowiska oraz Stałe Przedstawicielstwo RP przy OECD, 2022.
- 34. Zhang, Y., Peng, S. (2022). Observed changes in China’s methane emissions linked to policy drivers. A. Turner (ed.). Seattle, WA: University of Washington. https://doi.org/10.1073/pnas.2202742119, February 16, 2022.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-bb37d0c0-44d7-42d7-8ec7-ee6e515ce90e