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In the time, when the whole world is increasingly engaged in environmental protection, it is necessary to come up with a fuel alternative for transportation, which means generally abandon the use of non-renewable resources (petrol, oil and fossil fuel in general), as they are one of the many factors influencing the emergence of greenhouse gases and the associated global warming. In today's Europe, the pressure is put mainly on automotive companies, to search for sources other than conventional fuels. At present, there is a big boom in the area of electric cars powered from the power network – the vast majority of electric energy, however, is produced in fossil fuel power plants. The second option of possible development in this area is the use of hydrogen as an alternative fuel. This technology, whether it be direct combustion as in diesel or eventually in petrol engines, or energy production in a hydrogen fuel cell, is certainly the way suitable for further development. With hydrogen as a fuel, it is possible to reduce pollutants almost to zero. The article presents a comparison of electricity generated using renewable and non-renewable sources and focuses on a closer understanding of the myth of the dangers connected with using hydrogen as fuel. Furthermore, compares conventional fuels to re-newable hydrogen technologies and focuses on the hydrogen combustion engines together with hydrogen storage and application in transportation.
Słowa kluczowe
Wydawca
Rocznik
Tom
Strony
161--171
Opis fizyczny
Bibliogr. 12 poz., fig., tab.
Twórcy
autor
autor
- VSB-Technical University Ostrava, Czech Republic
Bibliografia
- 1. Bołoz, Ł., Midor, K. (2018). Process innovations in mining industry and effects of their implementation presented on example of longwall milling heads. Acta Montanistica Slovaca, 3.
- 2. Energetika v ČR, Čísla a statistiky. (2019). [online] Skupina ČEZ. Energy in the Czech Republic, Numbers and Statistics. Available at: https://www.cez.cz [Accessed 14 May 2019].
- 3. Gandia, L., Arzamedi, M., Dieguez, G., Pedro M. Renewable Hydrogen Technologies – Production, Purification, Storage, Applications and Safety – 16.1.1 H2-Internal Combustion Engine vs. Fuel Cell. Elsevier.
- 4. Gajdzik, B. (2009). Environmental aspects, strategies and waste logistic system based on the example of metallurgical company, Metalurgija 48(1) pp. 63-67.
- 5. Gajdzik, B., Grzybowska, K (2012). Example models of building trust in supply chains of metallurgical enterprises. Metalurgija, 51(4), pp. 563-566.
- 6. Grabowska, S. (2018). Improvement of the heat treatment process in the Industry 4.0 context. In: METAL 2018. 27th International Conference on Metallurgy and Materials, May 23rd - 25th, 2018, Brno, Czech Republic. Conference proceedings. Ostrava: Tanger, 2018, (CD-ROM) pp. 1985-1990.
- 7. Hydrogen and fuel (2010c). Cells: fundamentals, technologies and applications. Weinheim: Wiley-VCH, ISBN 978-3-527-32711-9.
- 8. Matisková, D., Kotus, M., Balara, M. (2016). Automatic thermal control system with temperature difference or derivation feedback. TEM Journal – Technology education management informatics, 5(1), pp. 60-66.
- 9. Mlčoch, J., Dittrich, R., Kaufman, T., Fries, J. (2015). Mobile crane for construction of wind power plants. SGEM Albena, Bulgaria. Sofia: STEF92 Technology Ltd., 2015, 329-336 pp. DOI: 10.5593/SGEM2015/B41/S17.043.
- 10. Sankir, M., Demirci. N. Hydrogen Production Technologies. John Wiley & Sons. Available at: https://app.knovel.com/hotlink/toc/id:kpHPT00001/hydrogen-product-ion-technologies/hydrogen-production-technologies.
- 11. Váchová, M. (2016). Vodík – alternativní zdroj energie. Hydrogen – an alternative source of energy. Spektrum. Ostrava: Sdružení požárního a bezpečnostního inženýrství, 6(1), 41-42.
- 12. Valladares, M.-R. (2017). Global Trends and Outlook for Hydrogen, IEA Hydrogen Technology Collaboration Program (TCP), pp. 20.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
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