Accès libre

Some new competitive advantages in the field of energetic paradigm shift from coal and gas towards the blue hydrogen production

   | 31 déc. 2021
À propos de cet article

Citez

Autoritatea Națională de Reglementare în Domeniul Energiei (2018). Raport anual privind activitatea Autorităţii Naţionale de Reglementare în Domeniul Energiei, 25. Search in Google Scholar

Balan, M., Covatariu, A., & Dudau, R. (2020). Romania’s Offshore Wind Energy Resources, 3. Search in Google Scholar

Bruni, G., Rizzello, C., Santucci, A., Alique, D., Incelli, M., Tosti, S. (2019) On the energy efficiency of hydrogen production processes via steam reforming using membrane reactors, International Journal of Hydrogen Energy, 998.10.1016/j.ijhydene.2018.11.095 Search in Google Scholar

Chen, I.-T. (2010). Steam Reforming of Methane. Retrieved from http://large.stanford.edu/courses/2010/ph240/chen1/. Search in Google Scholar

Dudau, R., & Iuga, V. (2018). Perspectivele gazelor naturale în România și modalități de valorifcare superioară a acestora, 49. Search in Google Scholar

Encyclopedia of Sustainable Technologies (2017) Methane Steam Reforming. Retrieved from: https://www.sciencedirect.com/topics/engineering/methane-steam-reforming/pdf. Search in Google Scholar

European Automobile Manufacturers Association (2020). Making the transition to zero-emission mobility, 7. Search in Google Scholar

European Comission (2020). A hydrogen strategy for a climate-neutral Europe. Retrieved from https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX:52020DC0301. Search in Google Scholar

European Comission. Directorate-General for Research (2008). HyWays. The European Hydrogen Roadmap, 7. Search in Google Scholar

European Commission (2020). A hydrogen strategy for a climate-neutral Europe, 7. Search in Google Scholar

European Commission (2020). Taxxonomy. Techinical Report. Retrieved from https://ec.europa.eu/info/sites/info/files/business_economy_euro/banking_and_finance/documents/190618-sustainable-finance-teg-report-taxonomy_en.pdf. Search in Google Scholar

H2 Tools (n.d.). ENERGY EQUIVALENCY OF FUELS (LHV). Retrieved from h2tools.org: https://h2tools.org/hyarc/hydrogen-data/energy-equivalency-fuels-lhv. Search in Google Scholar

Hy Web. (n.d.). Hydrogen data - hydrogen data. Retrieved from http://www.h2data.de/: http://www.h2data.de/. Search in Google Scholar

IEA (2020). Energy Outlook 2020, 70. Search in Google Scholar

International Energy Agency (2019). The Future of Hydrogen. Seizing today’s opportunities, 13.10.1787/1e0514c4-en Search in Google Scholar

IRENA (2019). Hydrogen: A renewable energy perspective, 27. Search in Google Scholar

Ministerul Economiei, Energiei și Mediului de Afaceri (2020). The 2021-2030 Integrated National Energy and Climate Plan, 67, 148. Search in Google Scholar

Shareq N. M., Jan H. C., Schalk C., Shahriar A. (2019). Efficient hydrogen production with CO2 capture using gas switching reforming, 1. Search in Google Scholar

Trinomics (2020). Opportunities arising from the inclusion of Hydrogen Energy Technologies in the National Energy and Climate Plans, iii. Search in Google Scholar

Undertaking, Fuel Cells and Hydrogen 2 Joint (2019). Hydrogen Roadmap Europe. Luxemburg: Publications Office of the European Union, 5-8. Search in Google Scholar

Watson, F., & Bowles, A. (2021, January 4). EU carbon prices hit all-time high of Eur34.25/mt as phase four starts. Retrieved from https://www.spglobal.com/: https://www.spglobal.com/platts/en/market-insights/latest-news/coal/010421-eu-carbon-prices-hit-all-time-high-of-eur3425mt-as-phase-four-starts. Search in Google Scholar

Yahya, A., Raed, K., Ramzi, H., & Shihab, E. (2020). The dawn of green hydrogen. Maintaining the GCC’s edge in a decarbonized world. PWC. Retrieved from https://www.strategyand.pwc.com/m1/en/reports/2020/the-dawn-of-green-hydrogen/the-dawn-of-green-hydrogen.pdf. Search in Google Scholar

eISSN:
2558-9652
Langue:
Anglais